Glucoamylase variants with altered properties

ABSTRACT

The present disclosure relates to variants of a parent glucoamylase having altered properties (e.g., improved thermostability and/or specific activity). In particular, the present disclosure provides compositions comprising the variant glucoamylases, including starch hydrolyzing compositions and cleaning compositions. The disclosure also relates to DNA constructs encoding the variants and methods of producing the glucoamylase variants in host cells.

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims benefit to U.S. Provisional Application No. 60/989,426 filed Nov. 20, 2007.

SEQUENCE LISTING

Also attached is a sequence listing comprising SEQ ID NOs: 1-167, which is herein incorporated by reference in its entirety.

FIELD OF THE INVENTION

Glucoamylase variants advantageously have altered properties (e.g., improved thermostability and/or specific activity). Compositions comprising the variant glucoamylases, DNA constructs encoding the variants, and methods of producing the glucoamylase variants in host cells are provided.

BACKGROUND

Glucoamylase enzymes (glucan 1,4-α-glucohydrolases, EC 3.2.1.3) are starch hydrolyzing exo-acting carbohydrases, which catalyze the removal of successive glucose units from the non-reducing ends of starch or related oligo and polysaccharide molecules. Glucoamylases can hydrolyze both the linear and branched glucosidic linkages of starch (e.g., amylose and amylopectin).

Glucoamylases are produced by numerous strains of bacteria, fungi, yeast and plants. Particularly interesting, and commercially important, glucoamylases are fungal enzymes that are extracellularly produced, for example from strains of Aspergillus (Svensson et al. (1983) Carlsberg Res. Commun. 48:529-544; Boel et al., (1984) EMBO J. 3:1097-1102; Hayashida et al., (1989) Agric. Biol. Chem. 53:923-929; U.S. Pat. No. 5,024,941; U.S. Pat. No. 4,794,175 and WO 88/09795); Talaromyces (U.S. Pat. No. 4,247,637; U.S. Pat. No. 6,255,084 and U.S. Pat. No. 6,620,924); Rhizopus (Ashikari et al., (1986) Agric. Biol. Chem. 50:957-964; Ashikari et al., (1989) App. Microbiol. Biotech. 32:129-133 and U.S. Pat. No. 4,863,864); Humicola (WO 05/052148 and U.S. Pat. No. 4,618,579) and Mucor (Houghton-Larsen et al., (2003) Appl. Microbiol. Biotechnol. 62:210-217). Many of the genes that code for these enzymes have been cloned and expressed in yeast, fungal and/or bacterial cells.

Commercially, glucoamylases are very important enzymes and have been used in a wide variety of applications that require the hydrolysis of starch (e.g., for producing glucose and other monosaccharides from starch). Glucoamylases are used to produce high fructose corn sweeteners, which comprise over 50% of the sweetener market in the United States. In general, glucoamylases may be, and commonly are, used with alpha amylases in starch hydrolyzing processes to hydrolyze starch to dextrins and then glucose. The glucose may then be converted to fructose by other enzymes (e.g., glucose isomerases); crystallized; or used in fermentations to produce numerous end products (e.g., ethanol, citric acid, lactic acid, succinate, ascorbic acid intermediates, glutamic acid, glycerol and 1,3-propanediol). Ethanol produced by using glucoamylases in the fermentation of starch and/or cellulose containing material may be used as a source of fuel or for alcoholic consumption.

Although glucoamylases have been used successfully in commercial applications for many years, a need still exists for new glucoamylases with altered properties, such as improved specific activity and increased thermostability.

Different mutations have been made in glucoamylases of Aspergillus that enhance thermal stability and specific activity. Reference is made to U.S. Pat. No. 6,537,792; U.S. Pat. No. 6,352,851; Chen et al. (1996) Prot. Eng. 9:499-505, Chen et al., (1995) Prot Eng. 8:575-582; Fierobe et al. (1996) Biochem. 35:8698-8704; and Li et al., (1997) Prot. Eng. 10:1199-1204. The need still exists for providing glucoamylase variants with altered properties relative to their parent.

SUMMARY

The present disclosure relates to glucoamylase variants of a parent glucoamylase. The glucoamylase variants contain amino acid substitutions with in the catalytic domain and/or the starch-binding domain. The variants display altered properties, such as improved thermostability and/or specific activity.

In one aspect, the present disclosure relates to a glucoamylase variant comprising two or more amino acid substitutions corresponding to position 61, 73, 417, 430, 431, 503, 511, 535, 539, or 563 of SEQ ID NO: 2, or an equivalent position in a parent glucoamylase. In another aspect, the present disclosure relates a glucoamylase variant having at least 80%, 85%, 90%, 95%, or 99.5% sequence identity with a parent glucoamylase of SEQ ID NO: 1, 2, 3, 5, 6, 7, 8, or 9. In one embodiment, the parent glucoamylase has a catalytic domain with at least 80% sequence identity with SEQ ID NO: 1, 2, 3, 5, 6, 7, 8, or 9, or a starch binding domain with at least 80% sequence identity with SEQ ID NO: 1 or 2. In other aspect, the parent glucoamylase is SEQ ID NO: 1 or 2. A further aspect of the present disclosure relates to glucoamylase variant further comprising one or more amino acid substitutions corresponding to position: 4, 5, 12, 24, 43, 44, 45, 46, 47, 49, 51, 70, 75, 6, 94, 100, 108, 114, 116, 119, 122, 124, 125, 137, 141, 143, 146, 148, 169, 171, 172, 175, 178, 180, 181, 208, 211, 228, 242, 243, 245, 292, 294, 197, 309, 310, 313, 314, 315, 316, 317, 321, 340, 341, 350, 353, 356, 363, 368, 369, 375, 376, 395, 398, 401, 408, 409, 412, 415, 418, 421, 433, 436 or 451 of SEQ ID NO: 2, or an equivalent position in the parent glucoamylase. In some aspects, the glucoamylase variant further comprises one or more amino acid substitutions corresponding to position: 4, 5, 24, 29, 43, 44, 49, 70, 75, 76, 100, 108, 119, 124, 137, 146, 148, 169, 171, 172, 175, 178, 181, 208, 211, 243, 292, 294, 297, 314, 316, 317, 340, 341, 350, 356, 363, 368, 369, 376, 395, 401, 412, 433, 436 or 451 of SEQ ID NO: 2, or an equivalent position in a parent glucoamylase. In some aspects, the glucoamylase further comprises one or more amino acid substitutions corresponding to position: 5, 24, 43, 44, 49, 70, 75, 76, 94, 119, 141, 146, 148, 172, 175, 178, 180, 181, 208, 211, 243, 294, 309, 314, 353, 369, 375, or 409 of SEQ ID NO: 2, or an equivalent position in a parent glucoamylase. In some aspects, the glucoamylase further comprises one or more amino acid substitutions corresponding to position: 43, 44, or 294 of SEQ ID NO: 2, or an equivalent position in a parent glucoamylase.

In further aspects of the invention, the glucoamylase variant comprises two or more amino acid substitutions corresponding to position: N61I, G73F, L417R/V, T430A/M, A431L/Q, E503A/V, Q511H, A535R, A539R, or N563I/K of SEQ ID NO: 2, or an equivalent position in a parent glucoamylase. In some aspects, the glucoamylase variant further comprises one or more of the following substitutions: D4L/E/R/S/C/A/Q/W, F5C/M/N/R/S/T/V/W, 112L/R, D24E/L/Y/T, F29L/I/D/C/S/V/W, I43F/R/D/Y/S/Q, D44E/H/K/S/N/Y/F/R/C, Y47W, Y49N, Q70R/K/M/P/G/L/F, Q75R/K/A, R76L/M/K/T/P, P94L, D100W/I/Q/M/P/A/N, N119P/T/Y/D/E, N146S/G/C/H/E/D/T/W/L/F/M, Q148V/Y/H/A/C/D/G/M/R/S/T, Y169D/F, Q172C/A/D/R/E/F/H/V/L/M/N/S/T/V, F175H/A/G/R/S/T/C/W/Y, W178A/C/D/E/F/G/H/K/N/R/S/T/V/Y, E180A/C/G/H/I/L/N/P/Q/R/S/TN/Y/, V181E/C/D/G/H/I/P/T/Y/S/L/K/F/A, Q208L/A/C/E/N/F/H/T, S211C/R/E/A/Y/W/M/H/L/I/R/Q/T, E243S/R/N/M/Y/A/L, R245A/E/M/I/P/V, I292D/H/P/R/T/N/V/F/L, G294C/D/E/T/Q/I/A, K297F/L/P/T/M/D/N/Q/A/Y/H/S/R/W, R309A/C/G/H/I/N/P/Q/S/T/W/Y/L, Y310E/G/L/P/S/W/R/Q, D313Q, V314A/R/N/D/C/E/Q/G/H/I/L/K/M/F/P/S/T/W/Y, Y315F, Y316Q/R, N317T/H, K340D/T, K341F/D/P/V/G/S, T350S/E/A/N, Q356H/D/E, T363L/R/C/H/W, S368W/D/F/L, S369F, N376Q/T/H/S/V, Y395Q/R/S, A398S/I/T, S401C/V, R408S, N409W/T/K, T412A/H/K/G, R433H/Q, 1436A/T, or S451M/T/H of SEQ ID NO: 2, or an equivalent position in a parent glucoamylase. In some aspects, the glucoamylase variant further comprises one or more of the following substitutions: I43F/R/D/Y/S/Q, D44E/H/K/S/N/Y/F/R/C, or G294C/D/E/T/Q/I/A of SEQ ID NO: 2, or an equivalent position in a parent glucoamylase.

In one aspect, the present disclosure relates a variant glucoamylase comprises comprising amino acid substitutions corresponding to positions: I43Q/D44C, D44C/G294C, I43Q/G294C, or I43Q/D44C/G294 of SEQ ID NO: 2, or an equivalent position in a parent glucoamylase. The glucoamylase variant has at least 80%, 85%, 90%, 95%, or 99.5% sequence identity with SEQ ID NO: 1, 2, 3, 5, 6, 7, 8, or 9. In one embodiment, the parent glucoamylase has a catalytic domain with at least 80% sequence identity with SEQ ID NO: 1, 2, 3, 5, 6, 7, 8, or 9, or a starch binding domain with at least 80% sequence identity with SEQ ID NO: 1 or 2.

The parent glucoamylase can the enzyme obtained from any of: a Trichoderma spp., an Aspergillus spp., a Humicola spp., a Penicillium spp., a Talaromycese spp., or a Schizosaccharmyces spp. In some aspects, the parent glucoamylase can be from a Trichoderma spp. or an Aspergillus spp.

In one aspect, the variant glucoamylase exhibits altered thermostability as compared to the parent glucoamylase. The altered thermostability can be increased thermostability. Alternatively, or in addition, the variant exhibits altered specific activity compared to the parent glucoamylase. The altered specific activity can be increased specific activity.

A further aspect of the disclosure is a polynucleotide encoding the variant described. A further aspect is a vector comprising the polynucleotide. A further aspect is a host cell containing the vector.

A further aspect of the disclosure is an enzyme composition including the glucoamylase variant. In one aspect, the enzyme composition is used in a starch conversion process or an alcohol fermentation process.

A further aspect of the invention is a method of producing a variant glucoamylase by culturing the host cell containing the polynucleotide under conditions suitable for the expression and production of the glucoamylase variant and producing the variant. The method may also include the step of recovering the glucoamylase variant from the culture.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A depicts the Trichoderma reesei glucoamylase (TrGA) parent glucoamylase having 632 amino acids (SEQ ID NO: 1). The signal peptide is underlined, the catalytic region (SEQ ID NO: 3) starting with amino acid residues SVDDFI (SEQ ID NO: 160) and having 453 amino acid residues is in bold; the linker region is in italics; and the starch binding domain (SEQ ID NO: 161) is both italics and underlined. The mature protein, which includes the catalytic domain (SEQ ID NO: 3), linker region, and starch binding domain (SEQ ID NO: 161), is represented by SEQ ID NO: 2. FIG. 1B depicts the cDNA (SEQ ID NO: 4) that codes for the TrGA.

FIG. 2 depicts the plasmid pDONR-TrGA that includes the cDNA (SEQ ID NO: 4) of the parent TrGA.

FIG. 3 depicts the plasmids pREP3Y-DEST (A) and pREP3Y-TrGA (B).

FIGS. 4A-4B depict an alignment comparison of the catalytic domains of parent glucoamylases including glucoamylase derived from Aspergillus awamori (AaGA) (SEQ ID NO: 5); Aspergillus niger (AnGA) (SEQ ID NO: 6); Aspergillus orzyae (AoGA) (SEQ ID NO: 7); Trichoderma reesei (TrGA) (SEQ ID NO: 3); Humicola grisea (HgGA) (SEQ ID NO: 8); and Hypocrea vinosa (HvGA) (SEQ ID NO: 9). Identical amino acids are indicated by an asterisk (*).

FIGS. 4C-4D depict an alignment comparing the Starch Binding Domain (SBD) of parent glucoamylases including Trichoderma reesei (TrGA) (SEQ ID NO: 161), Humicola grisea (HgGA) (SEQ ID NO: 162), Thielavia terrestris (TtGA) (SEQ ID NO: 163), Thermomyces lanuginosus (ThGA) (SEQ ID NO: 164), Talaromyces emersonii (TeGA) (SEQ ID NO: 165), Aspergillus niger (AnGA) (SEQ ID NO: 166), and Aspergillus awamori (AaGA) (SEQ ID NO: 167). Identical amino acids are indicated by a dot (.).

FIG. 5A depicts the plasmid pTrex3g-DEST. FIG. 5B depicts the plasmid pTrex3g-TrGA. The plasmids were used as expression vectors for expression and production of variant glucoamylases in a Trichoderma reesei host.

FIGS. 6A and 6B depict the V_(max) (μM glucose/sec) comparison between the parent (wild-type) TrGA and variants, V314, S211R, Q172F, and Q208N at 60° C. (FIG. 6A) and 32° C. (FIG. 6B) as further discussed in Example 8.

FIG. 7 depicts the activity of combinatorial variants on a starch substrate. Combinatorial variants described herein include ET7-1 (D24Y/V181L/Q208C/G294A/T353R/N375N/N409W), LR8 (Q172F/Q208N), LR12 (Q172F/S211R), LR6 (Q172F/Q208N/V314H), ET8-1 (D24E/V181K/E243Y/1292V/G294Q/N409K), and ET7-2 (Q24L/V181L/Q208C/G294A/T353R/N375Q/N409W). Activity is represented in units of absorption at 340 nm as a function of ng of indicated glucoamylase variants.

FIG. 8 depicts the activity of single site variants on a cornstarch substrate. Single site variants described herein include V314H, G294Q, S211R, Q208N, Q172F, G2941, and P94N. Activity is represented in units of absorption at 340 nm as a function of ng of indicated glucoamylase variants.

FIG. 9 depicts the glucoamylase activity of TrGA and the TrGA variant LR8 (Q172F/Q208N) on a sample of corn mash liquefact (NE).

FIG. 10 depicts the activity profile of TrGA and the TrGA variant LR8 (Q172F/Q208N) on a sample of corn mash liquefact (BSE).

FIG. 11 depicts the activity profile of TrGA and the TrGA variant LR8 (Q172F/Q208N) on a sample soluble cornstarch substrate.

FIG. 12 depicts a comparison of the three dimensional structures of Trichoderma reesei glucoamylase (black) (SEQ ID NO: 2) and Aspergillus awamorii glucoamylase (grey) viewed from the side.

FIG. 13 depicts a comparison of the three dimensional structures of Trichoderma reesei glucoamylase (black) and Aspergillus awamorii glucoamylase (grey) viewed from the top.

FIG. 14A depicts the plasmid pTTT-Dest. FIG. 14B depicts the plasmid pTTT-TrGA(B).

DETAILED DESCRIPTION

Glucoamylases are commercially important enzymes in a wide variety of applications that require the hydrolysis of starch. Glucoamylases variants of described herein contains amino acid substitutions within the catalytic domain or the starch binding domain. The variants may display altered properties such as improved thermostability and/or specific activity. The variants with improved thermostability and/or specific activity may significantly improve the efficiency of glucose and fuel ethanol production from corn starch, for example.

1. DEFINITIONS

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this disclosure belongs. Singleton, et al., DICTIONARY OF MICROBIOLOGY AND MOLECULAR BIOLOGY, 2D ED., John Wiley and Sons, New York (1994), and Hale & Markham, THE HARPER COLLINS DICTIONARY OF BIOLOGY, Harper Perennial, N.Y. (1991) provide one of skill with the general meaning of many of the terms used herein. Certain terms are defined below for the sake of clarity and ease of reference.

As used herein, the term “glucoamylase (EC 3.2.1.3)” refers to an enzyme that catalyzes the release of D-glucose from the non-reducing ends of starch and related oligo- and polysaccharides.

The term “parent” or “parent sequence” refers to a sequence that is native or naturally occurring in a host cell. Parent sequences include, but are not limited to, the glucoamylase sequences set forth in SEQ ID NOs: 1, 2, 3, 5, 6, 7, 8, and 9.

As used herein, an “equivalent position” means a position that is common to two parent sequences that is based on an alignment of the amino acid sequence of the parent glucoamylase in question as well as alignment of the three-dimensional structure of the parent glucoamylase in question with the TrGA reference glucoamylase amino acid sequence (SEQ ID NO: 2) and three-dimensional sequence.

The term “TrGA” refers to a parent Trichoderma reesei glucoamylase sequence having the mature protein sequence illustrated in SEQ ID NO: 2 that includes the catalytic domain having the sequence illustrated in SEQ ID NO: 3. The isolation, cloning and expression of the TrGA are described in U.S. Pat. No. 7,413,887, which are incorporated herein by reference. In some embodiments, the parent sequence refers to a glucoamylase that is the starting point for protein engineering. The numbering of the glucoamylase amino acids herein is based on the sequence alignment of a glucoamylase with TrGA (SEQ ID NO: 2 and SEQ ID NO: 3).

The phrase “mature form of a protein or polypeptide” refers to the final functional form of the protein or polypeptide. To exemplify, a mature form of the TrGA includes the catalytic domain, linker region, and starch binding domain having the amino acid sequence of SEQ ID NO: 2.

As used herein, the terms “glucoamylase variant” and “variant” are used in reference to glucoamylases that have some degree of amino acid sequence identity to a parent glucoamylase sequence and that may retain the functional characteristics of a glucoamylase. A variant is similar to a parent sequence, but has at least one substitution, deletion or insertion in their amino acid sequence that makes them different in sequence from a parent glucoamylase. In some cases, variants have been manipulated and/or engineered to include at least one substitution, deletion, or insertion in their amino acid sequence that makes them different in sequence from a parent.

“Variants” may have at least 99.5%, at least 99%, at least 98%, at least 97%, at least 96%, at least 95%, at least 94%, at least 93%, at least 92%, at least 91%, at least 90%, at least 88%, at least 85%, at least 80%, at least 75%, at least 70%, at least 65%, at least 60%, at least 55%, at least 50%, or at least 45% sequence identity to a polypeptide sequence when optimally aligned for comparison. In some embodiments, the glucoamylase variant may have at least 99.5%, at least 99%, at least 98%, at least 97%, at least 96%, at least 95%, at least 94%, at least 93%, at least 92%, at least 91%, at least 90%, at least 88%, at least 85%, at least 80%, at least 75%, at least 70%, at least 65%, at least 60%, at least 55%, at least 50%, or at least 45% sequence identity to the catalytic domain of a parent glucoamylase. In some embodiments, the glucoamylase variant may have at least 99.5%, at least 99%, at least 98%, at least 97%, at least 96%, at least 95%, at least 94%, at least 93%, at least 92%, at least 91%, at least 90%, at least 88%, at least 85%, at least 80%, at least 75%, at least 70%, at least 65%, at least 60%, at least 55%, at least 50%, or at least 45% sequence identity to the starch binding domain of a parent glucoamylase. The sequence identity can be measured over the entire length of the parent or the variant sequence.

Sequence identity is determined using standard techniques known in the art (see e.g., Smith and Waterman, Adv. Appl. Math. 2: 482 (1981); Needleman and Wunsch, J. Mol. Biol. 48: 443 (1970); Pearson and Lipman, Proc. Natl. Acad. Sci. USA 85: 2444 (1988); programs such as GAP, BESTHT, FASTA, and TFASTA in the Wisconsin Genetics Software Package (Genetics Computer Group, Madison, Wis.); and Devereux et al., Nucleic Acid Res., 12: 387-395 (1984)).

The “percent (%) nucleic acid sequence identity” or “percent (%) amino acid sequence identity” is defined as the percentage of nucleotide residues or amino acid residues in a candidate sequence that are identical with the nucleotide residues or amino acid residues of the starting sequence (e.g., TrGA). The sequence identity can be measured over the entire length of the starting sequence (e.g., SEQ ID NO: 2)

Sequence identity is determined by known methods of sequence alignment. A commonly used alignment method is BLAST described by Altschul et al., (Altschul et al., J. Mol. Biol. 215: 403-410 (1990); and Karlin et al, Proc. Natl. Acad. Sci. USA 90: 5873-5787 (1993)). A particularly useful BLAST program is the WU-BLAST-2 program (see Altschul et al, Meth. Enzymol. 266: 460-480 (1996)). WU-BLAST-2 uses several search parameters, most of which are set to the default values. The adjustable parameters are set with the following values: overlap span=1, overlap fraction=0.125, word threshold (T)=11. The HSP S and HSP S2 parameters are dynamic values and are established by the program itself depending upon the composition of the particular sequence and composition of the particular database against which the sequence of interest is being searched. However, the values may be adjusted to increase sensitivity. A % amino acid sequence identity value is determined by the number of matching identical residues divided by the total number of residues of the “longer” sequence in the aligned region. The “longer” sequence is the one having the most actual residues in the aligned region (gaps introduced by WU-Blast-2 to maximize the alignment score are ignored).

Other methods find use in aligning sequences. One example of a useful algorithm is PILEUP. PILEUP creates a multiple sequence alignment from a group of related sequences using progressive, pair-wise alignments. It can also plot a tree showing the clustering relationships used to create the alignment. PILEUP uses a simplification of the progressive alignment method of Feng and Doolittle (Feng and Doolittle, J. Mol. Evol. 35: 351-360 (1987)). The method is similar to that described by Higgins and Sharp (Higgins and Sharp, CABIOS 5: 151-153 (1989)). Useful PILEUP parameters including a default gap weight of 3.00, a default gap length weight of 0.10, and weighted end gaps.

The term “optimal alignment” refers to the alignment giving the highest percent identity score.

As used herein the term “catalytic domain” refers to a structural region of a polypeptide, which contains the active site for substrate hydrolysis.

The term “linker” refers to a short amino acid sequence generally having between 3 and 40 amino acids residues that covalently bind an amino acid sequence comprising a starch binding domain with an amino acid sequence comprising a catalytic domain.

The term “starch binding domain” refers to an amino acid sequence that binds preferentially to a starch substrate.

As used herein, the terms “mutant sequence” and “mutant gene” are used interchangeably and refer to a polynucleotide sequence that has an alteration in at least one codon occurring in a host cell's parent sequence. The expression product of the mutant sequence is a variant protein with an altered amino acid sequence relative to the parent. The expression product may have an altered functional capacity (e.g., enhanced enzymatic activity).

The term “property” or grammatical equivalents thereof in the context of a polypeptide, as used herein, refers to any characteristic or attribute of a polypeptide that can be selected or detected. These properties include, but are not limited to oxidative stability, substrate specificity, catalytic activity, thermal stability, pH activity profile, resistance to proteolytic degradation, K_(M), K_(CAT), K_(CAT)/K_(M) ratio, protein folding, ability to bind a substrate and ability to be secreted.

The term “property” of grammatical equivalent thereof in the context of a nucleic acid, as used herein, refers to any characteristic or attribute of a nucleic acid that can be selected or detected. These properties include, but are not limited to, a property affecting gene transcription (e.g., promoter strength or promoter recognition), a property affecting RNA processing (e.g., RNA splicing and RNA stability), a property affecting translation (e.g., regulation, binding of mRNA to ribosomal proteins).

The terms “thermally stable” and “thermostable” refer to glucoamylase variants of the present disclosure that retain a specified amount of enzymatic activity after exposure to a temperature over a given period of time under conditions prevailing during the hydrolysis of starch substrates, for example, while exposed to altered temperatures.

The term “enhanced stability” in the context of a property such as thermostability refers to a higher retained starch hydrolytic activity over time as compared to another reference (i.e., parent) glucoamylases.

The term “diminished stability” in the context of a property such as thermostability refers to a lower retained starch hydrolytic activity over time as compared to another reference glucoamylase.

The term “specific activity” is defined as the activity per mg of glucoamylase protein. In some embodiments, the activity for glucoamylase is determined by the ethanol assay described herein and expressed as the amount of glucose that is produced from the starch substrate. In some embodiments, the protein concentration can be determined using the Caliper assay described herein.

The terms “active” and “biologically active” refer to a biological activity associated with a particular protein. It follows that the biological activity of a given protein refers to any biological activity typically attributed to that protein by those skilled in the art. For example, an enzymatic activity associated with a glucoamylase is hydrolytic and, thus an active glucoamylase has hydrolytic activity.

The terms “polynucleotide” and “nucleic acid”, used interchangeably herein, refer to a polymeric form of nucleotides of any length, either ribonucleotides or deoxyribonucleotides. These terms include, but are not limited to, a single-, double- or triple-stranded DNA, genomic DNA, cDNA, RNA, DNA-RNA hybrid, or a polymer comprising purine and pyrimidine bases, or other natural, chemically, biochemically modified, non-natural or derivatized nucleotide bases.

As used herein, the terms “DNA construct,” “transforming DNA” and “expression vector” are used interchangeably to refer to DNA used to introduce sequences into a host cell or organism. The DNA may be generated in vitro by PCR or any other suitable technique(s) known to those in the art. The DNA construct, transforming DNA or recombinant expression cassette can be incorporated into a plasmid, chromosome, mitochondrial DNA, plastid DNA, virus, or nucleic acid fragment. Typically, the recombinant expression cassette portion of an expression vector, DNA construct or transforming DNA includes, among other sequences, a nucleic acid sequence to be transcribed and a promoter. In some embodiments, expression vectors have the ability to incorporate and express heterologous DNA fragments in a host cell.

As used herein, the term “vector” refers to a polynucleotide construct designed to introduce nucleic acids into one or more cell types. Vectors include cloning vectors, expression vectors, shuttle vectors, plasmids, cassettes, and the like.

As used herein in the context of introducing a nucleic acid sequence into a cell, the term “introduced” refers to any method suitable for transferring the nucleic acid sequence into the cell. Such methods for introduction include but are not limited to protoplast fusion, transfection, transformation, conjugation, and transduction.

As used herein, the terms “transformed” and “stably transformed” refers to a cell that has a non-native (heterologous) polynucleotide sequence integrated into its genome or as an episomal plasmid that is maintained for at least two generations.

As used herein, the terms “selectable marker” and “selective marker” refer to a nucleic acid (e.g., a gene) capable of expression in host cells that allows for ease of selection of those hosts containing the vector. Typically, selectable markers are genes that confer antimicrobial resistance or a metabolic advantage on the host cell to allow cells containing the exogenous DNA to be distinguished from cells that have not received any exogenous sequence during the transformation.

As used herein, the term “promoter” refers to a nucleic acid sequence that functions to direct transcription of a downstream gene. The promoter, together with other transcriptional and translational regulatory nucleic acid sequences (also termed “control sequences”) is necessary to express a given gene. In general, the transcriptional and translational regulatory sequences include, but are not limited to, promoter sequences, ribosomal binding sites, transcriptional start and stop sequences, translational start and stop sequences, and enhancer or activator sequences.

A nucleic acid is “operably linked” when it is placed into a functional relationship with another nucleic acid sequence. For example, DNA encoding a secretory leader (i.e., a signal peptide), is operably linked to DNA for a polypeptide if it is expressed as a preprotein that participates in the secretion of the polypeptide. Generally, “operably linked” means that the DNA sequences being linked are contiguous, and, in the case of a secretory leader, contiguous and in reading phase.

As used herein the term “gene” refers to a polynucleotide (e.g., a DNA segment), that encodes a polypeptide and includes regions preceding and following the coding regions, as well as intervening sequences (introns) between individual coding segments (exons).

As used herein, “ortholog” and “orthologous genes” refer to genes in different species that have evolved from a common ancestral gene (i.e., a homologous gene) by speciation. Typically, orthologs retain the same function during the course of evolution. Identification of orthologs finds use in the reliable prediction of gene function in newly sequenced genomes.

As used herein, “paralog” and “paralogous genes” refer to genes that are related by duplication within a genome. While orthologs retain the same function through the course of evolution, paralogs evolve new functions, even though some functions are often related to the original one. Examples of paralogous genes include, but are not limited to genes encoding trypsin, chymotrypsin, elastase, and thrombin, which are all serine proteinases and occur together within the same species.

As used herein, the term “hybridization” refers to the process by which a strand of nucleic acid joins with a complementary strand through base pairing, as known in the art.

A nucleic acid sequence is considered to be “selectively hybridizable” to a reference nucleic acid sequence if the two sequences specifically hybridize to one another under moderate to high stringency hybridization and wash conditions. Hybridization conditions are based on the melting temperature (T_(m)) of the nucleic acid binding complex or probe. For example, “maximum stringency” typically occurs at about T_(m)−5° C. (5° below the T_(m) of the probe); “high stringency” at about 5-10° C. below the T_(m); “intermediate stringency” at about 10-20° C. below the T_(m) of the probe; and “low stringency” at about 20-25° C. below the T_(m). Functionally, maximum stringency conditions may be used to identify sequences having strict identity or near-strict identity with the hybridization probe; while an intermediate or low stringency hybridization can be used to identify or detect polynucleotide sequence homologs.

Moderate and high stringency hybridization conditions are well known in the art. An example of high stringency conditions includes hybridization at about 42° C. in 50% formamide, 5×SSC, 5×Denhardt's solution, 0.5% SDS and 100 μg/ml denatured carrier DNA followed by washing two times in 2×SSC and 0.5% SDS at room temperature and two additional times in 0.1×SSC and 0.5% SDS at 42° C. An example of moderate stringent conditions include an overnight incubation at 37° C. in a solution comprising 20% formamide, 5×SSC (150 mM NaCl, 15 mM trisodium citrate), 50 mM sodium phosphate (pH 7.6), 5×Denhardt's solution, 10% dextran sulfate and 20 mg/ml denaturated sheared salmon sperm DNA, followed by washing the filters in 1×SSC at about 37-50° C. Those of skill in the art know how to adjust the temperature, ionic strength, etc. as necessary to accommodate factors such as probe length and the like.

As used herein, “recombinant” includes reference to a cell or vector, that has been modified by the introduction of a heterologous or homologous nucleic acid sequence or that the cell is derived from a cell so modified. Thus, for example, recombinant cells express genes that are not found in identical form within the native (non-recombinant) form of the cell or express native genes that are otherwise abnormally expressed, under expressed or not expressed at all as a result of deliberate human intervention.

In an embodiment of the disclosure, mutated DNA sequences are generated with site saturation mutagenesis in at least one codon. In another embodiment, site saturation mutagenesis is performed for two or more codons. In a further embodiment, mutant DNA sequences have more than 50%, more than 55%, more than 60%, more than 65%, more than 70%, more than 75%, more than 80%, more than 85%, more than 90%, more than 95%, or more than 98% homology with the parent sequence. In alternative embodiments, mutant DNA is generated in vivo using any known mutagenic procedure such as, for example, radiation, nitrosoguanidine, and the like. The desired DNA sequence is then isolated and used in the methods provided herein.

As used herein, “heterologous protein” refers to a protein or polypeptide that does not naturally occur in the host cell.

An enzyme is “over-expressed” in a host cell if the enzyme is expressed in the cell at a higher level than the level at which it is expressed in a corresponding wild-type cell.

The terms “protein” and “polypeptide” are used interchangeability herein. In the present disclosure and claims, the conventional one-letter and three-letter codes for amino acid residues are used. The 3-letter code for amino acids as defined in conformity with the IUPAC-IUB Joint Commission on Biochemical Nomenclature (JCBN). It is also understood that a polypeptide may be coded for by more than one nucleotide sequence due to the degeneracy of the genetic code.

Variants of the disclosure are described by the following nomenclature: [original amino acid residue/position/substituted amino acid residue]. For example, the substitution of leucine for arginine at position 76 is represented as R76L. When more than one amino acid is substituted at a given position, the substitution is represented as 1) Q172C, Q172D or Q172R; 2) Q172C, D, or R, or 3) Q172C/D/R. When a position suitable for substitution is identified herein without a specific amino acid suggested, it is to be understood that any amino acid residue may be substituted for the amino acid residue present in the position. Where a variant glucoamylase contains a deletion in comparison with other glucoamylases the deletion is indicated with “*”. For example, a deletion at position R76 is represented as R76*. A deletion of two or more consecutive amino acids is indicated for example as (76-78)*.

A “prosequence” is an amino acid sequence between the signal sequence and mature protein that is necessary for the secretion of the protein. Cleavage of the pro sequence will result in a mature active protein.

The term “signal sequence” or “signal peptide” refers to any sequence of nucleotides and/or amino acids that may participate in the secretion of the mature or precursor forms of the protein. This definition of signal sequence is a functional one, meant to include all those amino acid sequences encoded by the N-terminal portion of the protein gene, which participate in the effectuation of the secretion of protein. They are often, but not universally, bound to the N-terminal portion of a protein or to the N-terminal portion of a precursor protein. The signal sequence may be endogenous or exogenous. The signal sequence may be that normally associated with the protein (e.g., glucoamylase), or may be from a gene encoding another secreted protein.

The term “precursor” form of a protein or peptide refers to a mature form of the protein having a prosequence operably linked to the amino or carbonyl terminus of the protein. The precursor may also have a “signal” sequence operably linked, to the amino terminus of the prosequence. The precursor may also have additional polynucleotides that are involved in post-translational activity (e.g., polynucleotides cleaved therefrom to leave the mature form of a protein or peptide).

“Host strain” or “host cell” refers to a suitable host for an expression vector comprising DNA according to the present disclosure.

The terms “derived from” and “obtained from” refer to not only a glucoamylase produced or producible by a strain of the organism in question, but also a glucoamylase encoded by a DNA sequence isolated from such strain and produced in a host organism containing such DNA sequence. Additionally, the term refers to a glucoamylase that is encoded by a DNA sequence of synthetic and/or cDNA origin and that has the identifying characteristics of the glucoamylase in question.

A “derivative” within the scope of this definition generally retains the characteristic hydrolyzing activity observed in the wild-type, native or parent form to the extent that the derivative is useful for similar purposes as the wild-type, native or parent form. Functional derivatives of glucoamylases encompass naturally occurring, synthetically or recombinantly produced peptides or peptide fragments that have the general characteristics of the glucoamylases of the present disclosure.

The term “isolated” refers to a material that is removed from the natural environment if it is naturally occurring.

A “purified” protein refers to a protein that is at least partially purified to homogeneity. In some embodiments, a purified protein is more than 10% pure, optionally more than 20% pure, and optionally more than 30% pure, as determined by SDS-PAGE. Further aspects of the disclosure encompass the protein in a highly purified form (i.e., more than 40% pure, more than 60% pure, more than 80% pure, more than 90% pure, more than 95% pure, more than 97% pure, and even more than 99% pure), as determined by SDS-PAGE.

As used herein, the term, “combinatorial mutagenesis” refers to methods in which libraries of variants of a starting sequence are generated. In these libraries, the variants contain one or several mutations chosen from a predefined set of mutations. In addition, the methods provide means to introduce random mutations that were not members of the predefined set of mutations. In some embodiments, the methods include those set forth in U.S. Pat. No. 6,582,914, hereby incorporated by reference. In alternative embodiments, combinatorial mutagenesis methods encompass commercially available kits (e.g., QuikChange® Multisite, Stratagene, San Diego, Calif.).

As used herein, the term “library of mutants” refers to a population of cells that are identical in most of their genome but include different homologues of one or more genes. Such libraries can be used, for example, to identify genes or operons with improved traits.

As used herein the term “dry solids content (DS or ds)” refers to the total solids of a slurry in % on a dry weight basis.

As used herein, the term “initial hit” refers to a variant that was identified by screening a combinatorial consensus mutagenesis library. In some embodiments, initial hits have improved performance characteristics, as compared to the starting gene.

As used herein, the term “improved hit” refers to a variant that was identified by screening an enhanced combinatorial consensus mutagenesis library.

As used herein, the term “target property” refers to the property of the starting gene that is to be altered. It is not intended that the present disclosure be limited to any particular target property. However, in some embodiments, the target property is the stability of a gene product (e.g., resistance to denaturation, proteolysis or other degradative factors), while in other embodiments, the level of production in a production host is altered. Indeed, it is contemplated that any property of a starting gene will find use in the present disclosure. Other definitions of terms may appear throughout the specification.

Where a range of values is provided, it is understood that each intervening value, to the tenth of the unit of the lower limit unless the context clearly dictates otherwise, between the upper and lower limits of that range is also specifically disclosed. Each smaller range between any stated value or intervening value in a stated range and any other stated or intervening value in that stated range is encompassed within the disclosure. The upper and lower limits of these smaller ranges may independently be included or excluded in the range, and each range where either, neither or both limits are included in the smaller ranges is also encompassed within the disclosure, subject to any specifically excluded limit in the stated range. Where the stated range includes one or both of the limits, ranges excluding either or both of those included limits are also included in the disclosure.

Before the exemplary embodiments are described in more detail, it is to be understood that this disclosure is not limited to particular embodiments described, as such may, of course, vary. Although any methods and materials similar or equivalent to those described herein can be used in the practice or testing of the present disclosure, exemplary methods and materials are now described.

As used herein and in the appended claims, the singular forms “a”, “an”, and “the” include plural referents unless the context clearly dictates otherwise. Thus, for example, reference to “a gene” includes a plurality of such candidate agents and reference to “the cell” includes reference to one or more cells and equivalents thereof known to those skilled in the art, and so forth.

The publications discussed herein are provided solely for their disclosure prior to the filing date of the present application. Nothing herein is to be construed as an admission that the present disclosure is not entitled to antedate such publication by virtue of prior invention.

2. PARENT GLUCOAMYLASES

In some embodiments, the present disclosure provides a glucoamylase variant. The glucoamylase variant is a variant of a parent glucoamylase, which may comprise both a catalytic domain and a starch binding domain. In some embodiments, the parent glucoamylase comprises a catalytic domain having an amino acid sequence as illustrated in SEQ ID NO: 1, 2, 3, 5, 6, 7, 8 or 9 or having an amino acid sequence displaying at least 80% sequence identity with one or more of the amino acid sequences illustrated in SEQ ID NO: 1, 2, 3, 5, 6, 7, 8, or 9. In yet other embodiments, the parent glucoamylase comprises a catalytic domain encoded by a DNA sequence that hybridizes under medium, high, or stringent conditions with a DNA encoding the catalytic domain of a glucoamylase having one of the amino acid sequences of SEQ ID NO: 1, 2 or 3.

In some embodiments, the parent glucoamylase comprises a starch binding domain having an amino acid sequence as illustrated in SEQ ID NO 1, 2, 161, 162, 163, 164, 165, 166, or 167, or having an amino acid sequence displaying at least 80% sequence identity with one or more of the amino acid sequence illustrated in SEQ ID NO: 1, 2, 161, 162, 163, 164, 165, 166, or 167. In yet other embodiments, the parent glucoamylase comprises a starch binding domain encoded by a DNA sequence that hybridizes under medium, high, or stringent conditions with a DNA encoding the starch binding domain of a glucoamylase having one of the amino acid sequences of SEQ ID NO: 1 or 2.

Predicted structure and known sequences of glucoamylases are conserved among fungal species (Coutinho et al., 1994, Protein Eng., 7:393-400 and Coutinho et al., 1994, Protein Eng., 7: 749-760). In some embodiments, the parent glucoamylase is a filamentous fungal glucoamylase. In some embodiments, the parent glucoamylase is obtained from a Trichoderma strain (e.g., T. reesei, T. longibrachiatum, T. strictipilis, T. asperellum, T. konilangbra and T. hazianum), an Aspergillus strain (e.g. A. niger, A. nidulans, A. kawachi, A. awamori and A. orzyae), a Talaromyces strain (e.g. T. emersonii, T. thermophilus, and T. duponti), a Hypocrea strain (e.g. H. gelatinosa, H. orientalis, H. vinosa, and H. citrina), a Fusarium strain (e.g., F. oxysporum, F. roseum, and F. venenatum), a Neurospora strain (e.g., N. crassa) and a Humicola strain (e.g., H. grisea, H. insolens and H. lanuginose), a Penicillium strain (e.g., P. notatum or P. chrysogenum), or a Saccharomycopsis strain (e.g., S. fibuligera).

In some embodiments, the parent glucoamylase may be a bacterial glucoamylase. For example, the polypeptide may be obtained from a gram-positive bacterial strain such as Bacillus (e.g., B. alkalophilus, B. amyloliquefaciens, B. lentos, B. licheniformis, B. stearothermophilus, B. subtilis and B. thuringiensis) or a Streptomyces strain (e.g., S. lividans).

In some embodiments, the parent glucoamylase will comprise a catalytic domain having at least 80% sequence identity, at least 85% sequence identity, at least 90% sequence identity, at least 95% sequence identity, at least 97% sequence identity and also at least 98% sequence identity with the catalytic domain of the TrGA amino acid sequence of SEQ ID NO: 3.

In other embodiments, the parent glucoamylase will comprise a catalytic domain having at least 90% sequence identity, at least 93% sequence identity, at least 95% sequence identity, at least 96% sequence identity, at least 97% sequence identity, at least 98% sequence identity and also at least 99% sequence identity with the catalytic domain of the Aspergillus parent glucoamylase of SEQ ID NO: 5 or SEQ ID NO: 6.

In yet other embodiments, the parent glucoamylase will comprise a catalytic domain having at least 90% sequence identity, at least 95% sequence identity, at least 97% sequence identity and also at least 99% sequence identity with the catalytic domain of the Humicola grisea (HgGA) parent glucoamylase of SEQ ID NO: 8.

In some embodiments, the parent glucoamylase will comprise a starch binding domain having at least 80% sequence identity, at least 85% sequence identity, at least 90% sequence identity, at least 95% sequence identity, at least 97% sequence identity and also at least 98% sequence identity with the starch binding domain of the TrGA amino acid sequence of SEQ ID NO: 1, 2, or 161.

In other embodiments, the parent glucoamylase will comprise a starch binding domain having at least 90% sequence identity, at least 95% sequence identity, at least 97% sequence identity and also at least 99% sequence identity with the catalytic domain of the Humicola grisea (HgGA) glucoamylase of SEQ ID NO: 162.

In other embodiments, the parent glucoamylase will comprise a starch binding domain having at least 90% sequence identity, at least 95% sequence identity, at least 97% sequence identity and also at least 99% sequence identity with the catalytic domain of the Thielavia terrestris (TtGA) glucoamylase of SEQ ID NO: 163.

In other embodiments, the parent glucoamylase will comprise a starch binding domain having at least 90% sequence identity, at least 95% sequence identity, at least 97% sequence identity and also at least 99% sequence identity with the catalytic domain of the Thermomyces lanuginosus (ThGA) glucoamylase of SEQ ID NO: 164.

In other embodiments, the parent glucoamylase will comprise a starch binding domain having at least 90% sequence identity, at least 95% sequence identity, at least 97% sequence identity and also at least 99% sequence identity with the catalytic domain of the Talaromyces emersoniit (TeGA) glucoamylase of SEQ ID NO: 165.

In yet other embodiments, the parent glucoamylase will comprise a starch binding domain having at least 90% sequence identity, at least 93% sequence identity, at least 95% sequence identity, at least 96% sequence identity, at least 97% sequence identity, at least 98% sequence identity and also at least 99% sequence identity with the starch binding domain of the Aspergillus parent glucoamylase of SEQ ID NO: 166 or 167.

In some embodiments, the parent glucoamylase will have at least 80% sequence identity, at least 85% sequence identity, at least 88% sequence identity, at least 90% sequence identity, at least 93% sequence identity, at least 95% sequence identity, at least 96% sequence identity, at least 97% sequence identity, at least 98% sequence identity and also at least 99% sequence identity with the TrGA amino acid sequence of SEQ ID NO: 2.

In further embodiments, a Trichoderma glucoamylase homologue will be obtained from a Trichoderma or Hypocrea strain. Some typical Trichoderma glucoamylase homologues are described in U.S. Pat. No. 7,413,887 and reference is made specifically to amino acid sequences set forth in SEQ ID NOs: 17-22 and 43-47 of the reference.

In some embodiments, the parent glucoamylase is TrGA comprising the amino acid sequence of SEQ ID NO: 2, or a Trichoderma glucoamylase homologue having at least 80%, at least 85%, at least 88%, at least 90%, at least 93%, at least 95%, at least 96%, at least 97%, at least 98%, at least 99% sequence identity to the TrGA sequence (SEQ ID NO: 2).

A parent glucoamylase can be isolated and/or identified using standard recombinant DNA techniques. Any standard techniques can be used that are known to the skilled artisan. For example, probes and/or primers specific for conserved regions of the glucoamylase can be used to identify homologoues in bacterial or fungal cells (the catalytic domain, the active site, etc.). Alternatively, degenerate PCR can be used to identify homologues in bacterial or fungal cells. In some cases, known sequences, such as in a database, can be analyzed for sequence and/or structural identity to one of the known glucoamylases, including SEQ ID NO: 2, or a known starch binding domains, including SEQ ID NO: 161. Functional assays can also be used to identify glucoamylase activity in a bacterial or fungal cell. Proteins having glucoamylase activity can be isolated and reverse sequenced to isolate the corresponding DNA sequence. Such methods are known to the skilled artisan.

3. GLUCOAMYLASE STRUCTURAL HOMOLOGY

The central dogma of molecular biology is that the sequence of DNA encoding a gene for a particular enzyme, determines the amino acid sequence of the protein, this sequence in turn determines the three-dimensional folding of the enzyme. This folding brings together disparate residues that create a catalytic center and substrate binding surface and this results in the high specificity and activity of the enzymes in question.

Glucoamylases consist of as many as three distinct structural domains, a catalytic domain of approximately 450 residues that is structurally conserved in all glucoamylases, generally followed by a linker region consisting of between 30 and 80 residues that are connected to a starch binding domain of approximately 100 residues. The structure of the Trichoderma reesei glucoamylase with all three regions intact was determined to 1.8 Angstrom resolution herein (see Table 20 and Example 13). Using the coordinates (see Table 20) the structure was aligned with the coordinates of the catalytic domain from Aspergillus awamorii strain X100 that was determined previously (Aleshin, A. E., Hoffman, C., Firsov, L. M., and Honzatko, R. B. 1994 Refined crystal structures of glucoamylase from Aspergillus awamori var. X100. J Mol Biol 238: 575-591.). The Aspergillus awamori crystal structure only included the catalytic domain. As seen in FIGS. 12 and 13, the structure of the catalytic domains overlap very closely and it is possible to identify equivalent residues based on this structural superposition. It is believed that all glucoamylases share the basic structure depicted in FIGS. 12 and 13.

FIG. 12 is a comparison of the three dimensional structures of the Trichoderma glucoamylase (black) of SEQ ID NO: 1 (see FIG. 1 for amino acid sequence) and of Aspergillus awamorii (grey) viewed from the side. In this view the relationship between the catalytic domain and the linker region and the starch binding domain can be seen.

FIG. 13 is a comparison of the three dimensional structures of the Trichoderma glucoamylase (black) and of Aspergillus awamorii (grey) viewed from the top. The glucoamylases shown here and indeed all known glucoamylases to date share this structural homology. The conservation of structure correlates with the conservation of activity and a conserved mechanism of action for all glucoamylases. Given this high homology, changes resulting from site specific variants of the Trichoderma glucoamylase resulting in altered function would also have similar structural and therefore functional consequences in other glucoamylases. Therefore, the teachings of which variants result in desirable benefits can be applied to other glucoamylases.

A further crystal structure was produced using the coordinates in Table 20 for the Starch Binding Domain (SBD). The SBD for TrGA was aligned with the SBD for A. niger. As shown in FIG. 13, the structure of the A. niger and TrGA SBDs overlaps very closely. It is believed that while all starch binding domains share at least some of the basic structure depicted in FIG. 13, some SBDs are more structurally similar than others. For example, the TrGA SBD can be classified as within the carbohydrate binding module 20 family within the CAZY database (cazy.org). The CAZY database describes the families of structurally-related catalytic and carbohydrate-binding modules (or functional domains) of enzymes that degrade, modify, or create glycosidic bonds. Given a high structural homology, site specific variants of the TrGA SBD resulting in altered function would also have similar structural and therefore functional consequences in other glucoamylases having SBDs with similar structure to that of the TrGA SBD, particularly those classified within the carbohydrate binding module 20 family. Thus, the teachings of which variants result in desirable benefits can be applied to other SBDs having structural similarity.

Thus, the amino acid position numbers discussed herein refer to those assigned to the mature Trichoderma reesei glucoamylase sequence presented in FIG. 1. The present disclosure, however, is not limited to the variants of Trichoderma glucoamylase, but extends to glucoamylases containing amino acid residues at positions that are “equivalent” to the particular identified residues in Trichoderma reesei glucoamylase (SEQ ID NO: 2). In a embodiment of the present disclosure, the parent glucoamylase is Taleromyces glucoamylase and the substitutions are made at the equivalent amino acid residue positions in Taleromyces glucoamylase as those described herein. In other embodiments, the parent glucoamylase is one of those listed in Table 1. In further embodiments, the parent glucoamylase is a Penicillium glucoamylase, such as Penicillium chrysogenum,

Structural identity determines whether the amino acid residues are equivalent. Structural identity is a one-to-one topological equivalent when the two structures (three dimensional and amino acid structures) are aligned. A residue (amino acid) position of a glucoamylase is equivalent to a residue of T. reesei glucoamylase if it is either homologous (i.e., corresponding in position in either primary or tertiary structure) or analogous to a specific residue or portion of that residue in T. reesei glucoamylase (having the same or similar functional capacity to combine, react, or interact chemically).

In order to establish identity to the primary structure, the amino acid sequence of a glucoamylase can be directly compared to Trichoderma reesei glucoamylase primary sequence and particularly to a set of residues known to be invariant in glucoamylases for which sequence is known. For example, FIGS. 4A and 4B herein shows the conserved residues between glucoamylases. FIGS. 4C and 4D show an alignment of starch binding domains from various glucoamylases. After aligning the conserved residues, allowing for necessary insertions and deletions in order to maintain alignment (i.e. avoiding the elimination of conserved residues through arbitrary deletion and insertion), the residues equivalent to particular amino acids in the primary sequence of Trichoderma reesei glucoamylase are defined. Alignment of conserved residues typically should conserve 100% of such residues. However, alignment of greater than 75% or as little as 50% of conserved residues is also adequate to define equivalent residues. Further, the structural identity can be used in combination with the sequence identity to identify equivalent residues.

For example, in FIGS. 4A and 4B, the catalytic domains of glucoamylases from six organisms are aligned to provide the maximum amount of homology between amino acid sequences. A comparison of these sequences shows that there are a number of conserved residues contained in each sequence as designated by an asterisk. These conserved residues, thus, may be used to define the corresponding equivalent amino acid residues of Trichoderma reesei glucoamylase in other glucoamylases such as glucoamylase from Aspergillus niger. Similarly, FIGS. 4C and 4D show the starch binding domains of glucoamylases from seven organisms aligned to identify equivalent residues.

Structural identity involves the identification of equivalent residues between the two structures. “Equivalent residues” can be defined by determining homology at the level of tertiary structure (structural identity) for an enzyme whose tertiary structure has been determined by X-ray crystallography. Equivalent residues are defined as those for which the atomic coordinates of two or more of the main chain atoms of a particular amino acid residue of the Trichoderma reesei glucoamylase (N on N, CA on CA, C on C and O on O) are within 0.13 nm and optionally 0.1 nm after alignment. Alignment is achieved after the best model has been oriented and positioned to give the maximum overlap of atomic coordinates of non-hydrogen protein atoms of the glucoamylase in question to the Trichoderma reesei glucoamylase. The best model is the crystallographic model giving the lowest R factor for experimental diffraction data at the highest resolution available.

${R\mspace{14mu} {factor}} = \frac{{\sum\limits_{h}{{{Fo}(h)}}} - {{{Fc}(h)}}}{\sum\limits_{h}{{{Fo}(h)}}}$

Equivalent residues that are functionally analogous to a specific residue of Trichoderma reesei glucoamylase are defined as those amino acids of the enzyme that may adopt a conformation such that they either alter, modify or contribute to protein structure, substrate binding or catalysis in a manner defined and attributed to a specific residue of the Trichoderma reesei glucoamylase. Further, they are those residues of the enzyme (for which a tertiary structure has been obtained by X-ray crystallography) that occupy an analogous position to the extent that, although the main chain atoms of the given residue may not satisfy the criteria of equivalence on the basis of occupying a homologous position, the atomic coordinates of at least two of the side chain atoms of the residue lie with 0.13 nm of the corresponding side chain atoms of Trichoderma reesei glucoamylase. The coordinates of the three dimensional structure of Trichoderma reesei glucoamylase are set forth in Table 15 and can be used as outlined above to determine equivalent residues on the level of tertiary structure.

Some of the residues identified for substitution are conserved residues whereas others are not. In the case of residues that are not conserved, the substitution of one or more amino acids is limited to substitutions that produce a variant that has an amino acid sequence that does not correspond to one found in nature. In the case of conserved residues, such substitutions should not result in a naturally-occurring sequence.

4. VARIANTS

The variants according to the disclosure include at least one substitution, deletion or insertion in the amino acid sequence of a parent glucoamylase that makes the variant different in sequence from the parent glucoamylase. In some embodiments, the variants of the disclosure will have at least 20%, at least 40%, at least 60%, at least 80%, at least 85%, at least 90%, at least 95%, or at least 100% of the glucoamylase activity of the TrGA activity of SEQ ID NO: 2.

In some embodiments, the variants according to the disclosure will comprise a substitution, deletion, or insertion in at least one amino acid position of the parent TrGA (SEQ ID NO: 2), or in an equivalent position in the sequence of another parent glucoamylase having at least 80% sequence identity to the TrGA sequence, including but not limited to, at least 90%, at least 93%, at least 95%, at least 97%, and at least 99% sequence identity.

In other embodiments, the variant according to the disclosure will comprise a substitution, deletion or insertion in at least one amino acid position of a fragment of the parent TrGA, wherein the fragment comprises the catalytic domain of the TrGA sequence (SEQ ID NO: 3) or in an equivalent position in a fragment comprising the catalytic domain of a parent glucoamylase having at least 80% sequence identity to the fragment of the TrGA sequence, including but not limited to, at least 90%, at least 95%, at least 97%, and at least 99%. In some embodiments, the fragment will comprise at least 400, 425, 450, and/or 500 amino acid residues.

In other embodiments, the variant according to the disclosure will comprise a substitution, deletion or insertion in at least one amino acid position of a fragment of the parent TrGA, wherein the fragment comprises the starch binding domain of the TrGA sequence (SEQ ID NO: 161) or in an equivalent position in a fragment comprising the starch binding domain of a parent glucoamylase having at least 80% sequence identity to the fragment of the TrGA sequence, including but not limited to, at least 90%, at least 95%, at least 97%, and at least 99%. In some embodiments, the fragment will comprise at least 40, 50, 60, 70, 80, 90, 100, and/or 109 amino acid residues of TrGA starch binding domain (SEQ ID NO: 161).

In some embodiments, when the parent glucoamylase includes a catalytic domain, a linker region, and a starch binding domain, the variant will comprise a substitution, deletion or insertion in at least one amino acid position of a fragment comprising part of the linker region. In some embodiments, the variant will comprise a substitution deletion, or insertion in the amino acid sequence of a fragment of the TrGA sequence (SEQ ID NO: 2).

Structural identity with reference to an amino acid substitution means that the substitution occurs at the equivalent amino acid position in the homologous glucoamylase or parent glucoamylase. The term equivalent position means a position that is common to two parent sequences that is based on an alignment of the amino acid sequence of the parent glucoamylase in question as well as alignment of the three-dimensional structure of the parent glucoamylase in question with the TrGA reference glucoamylase amino acid sequence and three-dimensional sequence. For example, with reference to FIG. 5, position 24 in TrGA (SEQ ID NO: 2 or 3) is D24 and the equivalent position for Aspergillus niger (SEQ ID NO: 6) is position D25, and the equivalent position for Aspergillus oryzea (SEQ ID NO: 7) is position D26. See FIGS. 12 and 13 for an exemplary alignment of the three-dimensional sequence.

In some embodiments, the glucoamylase variant will include at least one substitution in the amino acid sequence of a parent. In further embodiments, the variant may have more than one substitution (e.g., two, three, or four substitutions).

In some embodiments, a glucoamylase variant comprises a substitution, deletion or insertion, and typically a substitution in at least one amino acid position in a position corresponding to the regions of non-conserved amino acids as illustrated in FIG. 5 (e.g., amino acid positions corresponding to those positions that are not designated by “*” in FIG. 5).

While the variants can be in any position in the mature protein sequence (SEQ ID NO: 2), in one embodiment, a glucoamylase variant comprises one or more substitutions in the following positions in the amino acid sequence set forth in SEQ ID NO: 2: 4, 5, 12, 24, 29, 43, 44, 45, 46, 47, 49, 51, 61, 70, 73, 75, 76, 94, 100, 108, 114, 116, 119, 122, 124, 125, 137, 143, 146, 148, 169, 171, 172, 175, 178, 180, 181, 208, 211, 228, 242, 243, 245, 292, 294, 297, 309, 310, 313, 314, 315, 316, 317, 321, 340, 341, 350, 353, 356, 363, 368, 369, 375, 376, 395, 398, 401, 408, 409, 412, 415, 417, 418, 421, 430, 431, 433, 436, 451, 503, 511, 535, 539, or 563; or in an equivalent position in a parent glucoamylase. In some embodiments, the parent glucoamylase will have at least 90%, at least 95%, at least 96%, at least 97% at least 98%, and at least 99% identity with SEQ ID NO: 2. In other embodiments the parent glucoamylase will be a Trichoderma glucoamylase homologue.

In some embodiments, the glucoamylase variant comprises one or more substitutions in the following positions in the amino acid sequence set forth in SEQ ID NO: 2:

D4, F5, I12, D24, F29, I43, D44, P45, D46, Y47, Y49, W51, N61, Y70, G73, Q75, R76, P94, D100, K108, K114, F116, N119, R122, Q124, R125, G137, N146, Q148, Y169, N171, Q172, F175, W178, E180, V181, Q208, S211, W228, N242, E243, R245, I292, G294, K297, R309, Y310, D313, V314, Y315, Y316, N317, W321, K340, K341, T350, Q356, T363, S368, S369, N376, Y395, A398, S401, R408, N409, T412, L417, H418, W421, T430, A431, R433, I436, S451, E503, Q511, A535, A539, or N563; or an equivalent position in parent glucoamylase (e.g., a Trichoderma glucoamylase homologue).

In other embodiments, the variant of a glucoamylase parent comprises one or more substitutions in the following positions in the amino acid sequence set forth in SEQ ID NO:2: 4, 5, 24, 29, 43, 44, 49, 61, 70, 73, 75, 76, 100, 108, 119, 124, 137, 146, 148, 169, 171, 172, 175, 178, 181, 208, 211, 243, 292, 294, 297, 314, 316, 317, 340, 341, 350, 356, 363, 368, 369, 376, 395, 401, 409, 412, 417, 430, 431, 433, 436, 451, 503, 511, 535, 539, or 563; or an equivalent position in a parent glucoamylase (e.g., a Trichoderma glucoamylase homologue).

In further embodiments, the variant of a glucoamylase parent comprises at least one of the following substitutions in the following positions in an amino acid sequence set forth in SEQ ID NO: 2: D4L/E/R/S/C/A/Q/W, F5C/M/N/R/S/T/V/W, I12L/R, D24E/L/Y/T, F29L/I/D/C/S/V/W, I43F/R/D/Y/S/Q, D44E/H/K/S/N/Y/F/R/C, Y47W, Y49N, N61D/I/L/Q/V/W, Q70R/K/M/P/G/L/F, G73F/C/L/W, Q75R/K/A, R76L/M/K/T/P, P94L, D100W/I/Q/M/P/A/N, N119P/T/Y/D/E, N146S/G/C/H/E/D/T/W/L/F/M, Q148V/Y/H/A/C/D/G/M/R/S/T, Y169D/F, Q172C/A/D/R/E/F/H/V/L/M/N/S/T/V, F175H/A/G/R/S/T/C/W/Y, W178A/C/D/E/F/G/H/K/N/R/S/T/V/Y, E180A/C/G/H/I/L/N/P/Q/R/S/T/V/Y/, V181E/C/D/G/H/I/P/T/Y/S/L/K/F/A, Q208L/A/C/E/N/F/H/T, S211C/R/E/A/Y/W/M/H/L/I/R/Q/T, E243S/R/N/M/Y/A/L, R245A/E/M/I/P/V, I292D/H/P/R/T/N/V/F/L, G294C/D/E/T/Q/I/A, K297F/L/P/T/M/D/N/Q/A/Y/H/S/R/W, R309A/C/G/H/I/N/P/Q/S/T/W/Y/L, Y310E/G/L/P/S/W/R/Q, D313Q, V314A/R/N/D/C/E/Q/G/H/I/L/K/M/F/P/S/T/W/Y, Y315F, Y316Q/R, N317T/H, K340D/T, K341F/D/P/V/G/S, T350S/E/A/N, Q356H/D/E, T363L/R/C/H/W, S368W/D/F/L, S369F, N376Q/T/H/S/V, Y395Q/R/S, A398S/I/T, S401C/V, R408S, N409W/T/K, T412A/H/K/G, L417A/D/E/F/G/I/K/Q/R/S/T/V/W/Y, T430A/E/F/G/H/I/K/M/N/Q/R/V, A431C/E/H/I/L/M/Q/R/S/W/Y, R433H/Q, 1436A/T, S451M/T/H, E503A/C/D/H/S/V/W, Q511C/G/H/I/K/T/V, A535E/F/G/K/L/N/P/R/S/T/V/W/Y, A539E/H/M/R/S/W, or N563/A/C/E/I/K/L/Q/TN; or a substitution in an equivalent position in a parent glucoamylase homologue.

In some embodiments, the glucoamylase variant comprises at least one substitution in a position corresponding to the amino acid residue position set forth in SEQ ID NO: 2: 5, 24, 43, 44, 49, 61, 70, 73, 75, 76, 94, 119, 146, 148, 172, 175, 178, 180, 181, 208, 211, 245, 294, 353, 315, 375, 409, 309, 314, 369, 412, 417, 430, 431, 503, 511, 535, 539, or 563; or an equivalent position in a homologous parent glucoamylase.

In some representative embodiments, the glucoamylase variant comprises at least one substitution selected from the group consisting of F5W, D24E, I43R, I43Y, I43Q, I435, I43F, D44C, D44R, Y47W, Y49N, N61I, Q70K, G73F, Q75R, R76L, P94L, N119P/T/Y/D, N146S/D/T/E/W/L, Q148V N171D, Q172C/D/R/E/F/V/L/T, F175R/W/Y, W178K/N/Y, E180H/N/V/R, V181E/F/G/I/H, Q208A/T/N, S211H/M/L/R, R245E, R245M, G294C, R309W, V314F/G/H/K/P/R/Y, Y315F, S369F, T412K, L417R, L417V, T430A, T430M, A431L, A431Q, E503A, E503V, Q511H, A535R, A539R, N5631, and N563K corresponding to the position set forth in SEQ ID NO: 2, or an equivalent position in a homologous parent glucoamylase.

In further particular embodiments, the glucoamylase variant comprises at least one substitution of an amino acid residue selected from the positions corresponding to position 5, 43, 44, 61, 73, 75, 76, 94, 108, 119, 124, 146, 148, 171, 172, 175, 178, 180, 181, 208, 211, 294, 297, 314, 316, 412, 417, 430, 431, 503, 511, 535, 539, or 563 of SEQ ID NO: 2, or an equivalent position in a Trichoderma glucoamylase homologue. In some embodiments, the substitution is at a position corresponding to position number 43, 44, 61, 73, 148, 172, 175, 178, 180, 208, 211, 294, 297, 314, 412, 417, 430, 431, 503, 511, 535, 539, or 563 of SEQ ID NO: 2, or an equivalent position in a Trichoderma glucoamylase homologue.

In some representative embodiments, the substitution is at a position corresponding to position number 43, 44, 61, 73, 108, 124, 171, 172, 208, 211, 294, 314, 316, 417, 430, 431, 503, 511, 535, 539, or 563 of SEQ ID NO: 2, or a homologous parent glucoamylase (e.g., Trichoderma glucoamylase homologue).

In some embodiments, the glucoamylase variants comprise multiple substitutions. Some of the multiple substitutions will include a substitution at one or more of the positions equivalent to and including the positions 24, 43, 44, 108, 124, 171, 175, 181, 208, 243, 292, 294, 297, 310, 314, 363, 417, 430, 431, 503, 511, 535, 539, or 563 of SEQ ID NO: 2. Some typical multiple substitutions will include one or more of the positions equivalent to and corresponding to positions 43, 44, 61, 73, 08, 124, 171, 208, 211, 294, 314 417, 430, 431, 503, 511, 535, 539, or 563 of SEQ ID NO: 2.

Some examples of variants with multiple substitutions include substitutions at positions:

D24/143/D44/F175/V181/V314/T363;

D24/Q208/I292/G294/K297/Y310;

V181/E243/I292/k297/N317/Y395;

D24/V181/Q208/G294/T363/N376/N409;

D24/V181/I292/G294/E243/N409;

I43R/E243/I292/G294/K297;

I43/D44/N61/L417/E503/Q511/A539;

I43/D44/L417/E503/Q511/A539;

I43/N61/L417/T430/Q511/A539;

I43/N61/L417/E503/Q511/A539;

I43/N61/T430/A431/Q511/A539;

I43/N61/T430/Q511;

I43/N61/T430/Q511/A539;

I43/N61/Q511;

I43/N61/Q511/A539;

I43/G73/T430;

I43/L417/E503/Q511/A539;

I43/L417/Q511;

I43/L417/T430/A431/Q511/A539;

I43/L417/T430/Q511;

I43/L417/T430/Q511/A539;

I43/L417/E503/A539;

I43/L417/E503/Q511/A539;

I43/T430;

I43/T430/A431/E503/Q511;

I43/T430/A431/Q511;

I43/T430/A431/Q511/A539;

I43/T430/E503/Q511;

I43/T430/Q511;

I43Q/T430/Q511/A539;

I43/A431/Q511;

I43/T430/E503/Q511/N563;

I43/T430/E503/A535/N563;

I43/E503/Q511/A539;

I43/Q511/A539;

D44/G73/L417/N563;

D44/G73/E503/Q511;

D44/G73/N563;

D44/L417/N563;

D44/T430/Q511/A535;

D44/E503/Q511/N563;

G73/T430/E503/Q511;

G73/T430/Q511;

G294/L417/A431;

G294/L417/A431;

G294/L417/A431/Q511;

L417/T430/A431/Q511/A535/A539/N563;

L417/A431/Q511;

L417/T430/Q511/A535/N563;

L417/T430/Q511/A539/N563; and E503/N563;

of SEQ ID NO: 2, or equivalent positions in parent glucoamylases and particularly Trichoderma glucoamylase homologues.

Some variants with multiple substitutions may include the substitutions at positions:

Y47F/W, Y315F/W;

D24E,L/I43F,R/D44H,N/F175H/V181K,L/V314D,H,K/T363R;

D24L,W,Y/Q208F/I292F,N,V/G294A,I,Q/K297A/Y310F,Q,R;

V181F,K,L/E243A,N,M,R,Y/1292F,L,N,V/K297A,D,H,M,N,Q/N317H/Y395Q,R;

D24E,L,Y/V181F,K,L/Q208C,F/G294A,I,Q/T363R/N376Q/N409K,W;

D24E,L,Y/V181F,K,L/1292F,L,N,V/G294A,I,Q/E243A,M,N,R,Y/N409K,W;

I43R/E243A,M,N,R,Y/1292F,L,N,V/G294A/K297A,D,H,M,N,Q,S,R,W,Y;

I43Q/D44C/N61I/L417V/E503A/Q511H/A539R;

I43Q/D44C/L417V/E503A/Q511H/A539R;

I43Q/N61I/L417V/E503A/Q511H/A539R;

I43Q/N61I/L417V/T430M/Q511H/A539R;

I43R/N61I/L417R,V/E503A/Q511H/A539R;

I43Q/N61I/T430A/A431L/Q511H/A539R;

I43Q/N61I/T430A/Q511H;

I43Q/N61I/T430A/Q511H/A539R;

I43Q/N61I/T430M/Q511H/A539R I43Q/N61I/Q511H;

I43Q/N61I/Q511H/A539R;

I43R/G73F/T430A;

I43Q/L417V/T430A/A431L/Q511H/A539R;

I43Q/L417V/T430A/Q511H;

I43Q/L417V/T430A/Q511H/A539R;

I43R/L417R/E503A/A539R;

I43R,Q/L417V/E503A/Q511H/A539R;

I43Q/L417V/Q511H;

I43R,Q/T430A;

I43Q/T430A/A431L/E503A/Q511H;

I43Q/T430A/A431L/Q511H;

I43Q/T430A/A431L/Q511H/A539R;

I43Q/T430A/E503A/Q511H;

I43Q/T430A/Q511H;

I43Q/T430A,M/Q511H/A539R;

I43R/T430A/E503A,V/Q511H/N563K;

I43Q/A431L/Q511H;

I43Q/E503A/Q511H/A539R;

I43Q/Q511H/A539R;

D44C/G73F/E503V/Q511H;

D44C/G73F/L417R/N563K;

D44C/G73F/N563K;

D44C/L417R/N563K;

D44R/E503A/Q511H/N563I;

D44R/T430A/Q511H/A535R;

G73F/T430A/E503V/Q511H;

G73F/T430A/Q511H;

G294C/L417R/A431L;

G294C/L417R/A431L,Q/Q511H;

G294C/L417V/A431Q;

L417R,V/A431L,Q/Q511H;

L417V/T430A/A431L,Q/Q511H/A535R/A539R/N563I;

L417V/T430A/Q511H/A535R/N563I;

L417V/T430A/Q511H/A539R/N563I; and

E503A/N5631

of SEQ ID NO: 2, or equivalent positions in parent glucoamylases and particularly Trichoderma glucoamylase homologue.

A number of parent glucoamylases have been aligned with the amino acid sequence of TrGA. FIGS. 4A and 4B include the catalytic domain of the following parent glucoamylases: Aspergillus awamori (AaGA) (SEQ ID NO: 5); Aspergillus niger (AnGA) (SEQ ID NO: 6); Aspergillus orzyae (AoGA) (SEQ ID NO: 7), Humicola grisea (HgGA) (SEQ ID NO: 8) and Hypocrea vinosa (HvGA) (SEQ ID NO: 9). The percent identity of the catalytic domains is represented in Table 1 below. FIGS. 4C and 4D include the starch binding domain of the following parent glucoamylases: Trichoderma reesei (TrGA) (SEQ ID NO: 161), Humicola grisea (HgGA) (SEQ ID NO: 162), Thielavia terrestris (TtGA) (SEQ ID NO: 163), Thermomyces lanuginosus (ThGA) (SEQ ID NO: 164), Talaromyces emersonii (TeGA) (SEQ ID NO: 165), Aspergillus niger (AnGA) (SEQ ID NO: 166), and Aspergillus awamori (AaGA) (SEQ ID NO: 167). In some embodiments, for example, the variant glucoamylase will be derived from a parent glucoamylase that is an Aspergillus glucoamylase and the variant will include at least one substitution in a position equivalent to a position set forth in SEQ ID NO: 2, and particularly in a position corresponding to D4, F5, I12, D24, F29, I43, D44, P45, D46, Y47, Y49, W51, N61, Y70, G73, Q75, R76, P94, D100, K108, K114, F116, N119, R122, Q124, R125, G137, N146, Q148, Y169, N171, Q172, F175, W178, E180, V181, Q208, S211, W228, N242, E243, R245, I292, G294, K297, R309, Y310, D313, V314, Y315, Y316, N317, W321, K340, K341, T350, Q356, T363, S368, S369, N376, Y395, A398, S401, R408, N409, T412, L417, H418, W421, T430, A431, R433, I436, S451, E503, Q511, A535, A539, or N563.

Endo-H removal of N-linked sugars in the Trichoderma reesei glucoamylase had a stabilizing effect (when looking at T_(m)). Thus, variants having an N171D substitution can have increased thermostability as compared to the wild-type parent. In some embodiments, variants having one or more substitutions at sites having N-linked sugars are provided, including N171D in Trichoderma reesei (SEQ ID NO: 2).

TABLE 1 AaGA AnGA AoGA HgGA HvGA TrGA AaGA 100 95 58 53 57 56 AnGA 100 59 53 57 56 AoGA 100 55 56 56 HgGA 100 61 63 HvGA 100 91 TrGA 100

The present disclosure also provides glucoamylase variants having at least one altered property (e.g., improved property) as compared to a parent glucoamylase and particularly to the TrGA. In some embodiments, at least one altered property (e.g., improved property) is selected from the group consisting of acid stability, thermal stability and specific activity. Typically, the altered property is increased acid stability, increased thermal stability and/or increased specific activity. The increased thermal stability typically is at higher temperatures. In one embodiment, the increased pH stability is at high pH. In a further embodiment, the increased pH stability is at low pH.

The glucoamylase variants of the disclosure may also provide higher rates of starch hydrolysis at low substrate concentrations as compared to the parent glucoamylase. The variant may have a higher V_(max) or lower K_(m) than a parent glucoamylase when tested under the same conditions. For example the variant glucoamylase may have a higher V_(max) at a temperature range of 25° C. to 70° C. (e.g., at 25° C. to 35° C.; 30° C. to 35° C.; 40° C. to 50° C.; at 50° C. to 55° C. and at 55° C. to 62° C.). The Michaelis-Menten constant, K_(m) and V_(max) values can be easily determined using standard known procedures.

5. THERMAL STABILITY Thermostable Variants

In one aspect, the disclosure relates to a variant glucoamylase having altered thermal stability at altered temperatures as compared to a parent or wild type. Altered temperatures include increased or decreased temperatures. In some embodiments, the glucoamylase variant will have improved thermostability such as retaining at least 50%, 60%, 70%, 75%, 80%, 85%, 90%, 92%, 95%, 96%, 97%, 98% or 99% enzymatic activity after exposure to altered temperatures over a given time period, for example, at least 60 minutes, 120 minutes, 180 minutes, 240 minutes, 300 minutes, etc. In some embodiments, the variant has increased thermal stability compared to the parent glucoamylase at selected temperatures in the range of 40 to 80° C., also in the range of 50 to 75° C. and in the range of 60 to 70° C., and typically at a pH range of 4.0 to 6.0. In some embodiments, the thermostability is determined as described in the Examples.

In some embodiments, particularly interesting variants in connection with an improvement in thermostability include one or more deletions, substitutions or insertions and particularly substitutions in the following positions in the amino acid sequence set forth in SEQ ID NO: 2: D4, F5, I12, D24, F29, I43, D44, P45, D46, Y47, Y49, W51, N61,Y70, G73, Q75, R76, P94, D100, K108, K114, F116, N119, R122, Q124, R125, G137, N146, Q148, Y169, N171, Q172, F175, W178, E180, V181, Q208, S211, W228, N242, E243, R245, I292, G294, K297, R309, Y310, D313, V314, Y315, Y316, N317, W321, K340, K341, T350, Q356, T363, S368, S369, N376, Y395, A398, S401, R408, N409, T412, L417, H418, W421, T430, A431, R433, I436, S451, E503, Q511, A535, A539, or N563; or an equivalent position in a parent glucoamylase. In some embodiments, the parent glucoamylase will be a Trichoderma glucoamylase homologue, and in typical embodiments, the parent glucoamylase will have at least 90%, at least 95%, or at least 98% sequence identity to SEQ ID NO: 2.

6. CHIMERIC GLUCOAMYLASES

Glucoamylase variants of the disclosure may also include chimeric or hybrid glucoamylases with, for example a starch binding domain (SBD) from one glucoamylase and a catalytic domain and linker from another. For example, a hybrid glucoamylase can be made by swapping the SBD from AnGA with the SBD from TrGA, making a hybrid with the AnGA SBD and the TrGA catalytic domain and linker. Alternatively, the SBD and linker from AnGA can be swapped for the SBD and linker of TrGA.

7. SPECIFIC ACTIVITY

In another aspect, the disclosure relates to a variant glucoamylase having altered specific activity as compared to a parent or wild-type glucoamylase.

In some embodiments, particularly interesting variants in connection with an improvement in specific activity include one or more deletions, substitutions or insertions and particularly substitutions in the following positions in the amino acid sequence set forth in SEQ ID NO: 2: D4, F5, I12, D24, F29, I43, D44, P45, D46, Y47, Y49, W51, N61, Y70, G73, Q75, R76, P94, D100, K108, K114, F116, N119, R122, Q124, R125, G137, N146, Q148, Y169, N171, Q172, F175, W178, E180, V181, Q208, S211, W228, N242, E243, R245, I292, G294, K297, R309, Y310, D313, V314, Y315, Y316, N317, W321, K340, K341, T350, Q356, T363, S368, S369, N376, Y395, A398, S401, R408, N409, T412, L417, T430, A431, H418, W421, R433, I436, S451, E503, Q511, A535, A539, or N563; or an equivalent position in a parent glucoamylase. In some embodiments, variants of the disclosure having improved specific activity include a substitution in the following positions in the amino acid sequence set forth in SEQ ID NO: 2: D4, D24, I43, D44, N61, Y70, G73, Q75, R76, D100, K108, N119, Q124, N146, Q148, N171, Q172, F175, V181, Q208, S211, E243, R245, I292, G294, K297, V314, Y316, N317, K340, K341, T350, Q356, T363, S368, N376, Y395, A398, S401, N409, T412, L417, T430, A431, I436, S451, E503, Q511, A535, A539, or N563; or an equivalent position in a parent glucoamylase. In some embodiments, the parent glucoamylase will comprise a sequence having at least 90% or 95% sequence identity to the sequence of SEQ ID NO: 2.

8. POLYNUCLEOTIDES

The present disclosure also relates to isolated polynucleotides encoding a variant glucoamylase of the disclosure. The polynucleotides encoding a variant glucoamylase may be prepared by established techniques known in the art. The polynucleotides may be prepared synthetically, such as by an automatic DNA synthesizer. The DNA sequence may be of mixed genomic (or cDNA) and synthetic origin prepared by ligating fragments together. The polynucleotides may also be prepared by polymerase chain reaction (PCR) using specific primers. In general, reference is made to Minshull J., et al., (2004), Engineered protein function by selective amino acid diversification, Methods 32(4):416-427. Also a number of companies now synthesize DNA such as Geneart AG, Regensburg, Germany.

The present disclosure also provides isolated polynucleotides comprising a nucleotide sequence (i) having at least 70% identity to SEQ ID NO: 4, or (ii) being capable of hybridizing to a probe derived from the nucleotide sequence set forth in SEQ ID NO: 4, under conditions of intermediate to high stringency, or (iii) being complementary to a nucleotide sequence having at least 90% sequence identity to the sequence set forth in SEQ ID NO: 4. Probes useful according to the disclosure may include at least 50, 100, 150, 200, 250, 300 or more contiguous nucleotides of SEQ ID NO: 4.

The present disclosure further provides isolated polynucleotides that encode variant glucoamylases that comprise an amino acid sequence comprising at least 80% amino acid sequence identity to SEQ ID NO: 2. In some embodiments, the variant glucoamylases have at least 80% amino acid sequence identity to SEQ ID NO: 2. In some embodiments, the variant glucoamylases have at least 90% amino acid sequence identity to SEQ ID NO: 2. In some embodiments, the variant glucoamylases have at least 93% amino acid sequence identity to SEQ ID NO: 2. In some embodiments, the variant glucoamylases have at least 95% amino acid sequence identity to SEQ ID NO: 2. In some embodiments, the variant glucoamylases have at least 97% amino acid sequence identity to SEQ ID NO: 2. In some embodiments, the variant glucoamylases have at least 98% amino acid sequence identity to SEQ ID NO: 2. In some embodiments, the variant glucoamylases have at least 99% amino acid sequence identity to SEQ ID NO: 2. The present disclosure also provides expression vectors comprising any of the polynucleotides provided above.

The present disclosure also provides fragments (i.e., portions) of the DNA encoding the variant glucoamylases provided herein. These fragments find use in obtaining partial length DNA fragments capable of being used to isolate or identify polynucleotides encoding mature glucoamylase enzymes described herein from filamentous fungal cells (e.g., Trichoderma, Aspergillus, Fusarium, Penicillium, Schizosaccharomyces, and Humicola), or a segment thereof having glucoamylase activity. In some embodiments, fragments of the DNA may comprise at least 50, 100, 150, 200, 250 300 or more contiguous nucleotides. In some embodiments, portions of the DNA provided in SEQ ID NO: 4 may be used in obtaining parent glucoamylase and particularly Trichoderma glucoamylase homologues from other species, such as filamentous fungi that encode a glucoamylase.

9. DNA CONSTRUCTS AND VECTORS

According to one embodiment of the disclosure, a DNA construct comprising a polynucleotide as described above encoding a variant glucoamylase encompassed by the disclosure and operably linked to a promoter sequence is assembled to transfer into a host cell.

The DNA construct may be introduced into a host cell using a vector. The vector may be any vector that when introduced into a host cell is typically integrated into the host cell genome and is replicated. Vectors include cloning vectors, expression vectors, shuttle vectors, plasmids, phage particles, cassettes and the like. In some embodiments, the vector is an expression vector that comprises regulatory sequences operably linked to the glucoamylase coding sequence.

Examples of suitable expression and/or integration vectors are provided in Sambrook et al., (1989) supra, and Ausubel (1987) supra, and van den Hondel et al. (1991) in Bennett and Lasure (Eds.) MORE GENE MANIPULATIONS IN FUNGI, Academic Press pp. 396-428 and U.S. Pat. No. 5,874,276. Fungal Genetics Stock Center Catalogue of Strains (FGSC, <www.fgsc.net>) also discloses useful vectors. Particularly useful vectors include vectors obtained from, for example, Invitrogen and Promega.

Specific vectors suitable for use in fungal host cells include vectors such as pFB6, pBR322, pUC18, pUC100, pDONR™201, pDONR™221, pENTR™, pGEM®3Z and pGEM®4Z. A general purpose expression vector useful in Aspergillus includes pRAX with a glaA promoter, and in Hypocrea/Trichoderma includes pTrex3g with a cbh1 promoter.

Suitable plasmids for use in bacterial cells include pBR322 and pUC19 permitting replication in E. coli and pE194 for example permitting replication in Bacillus.

In some embodiments, the promoter shows transcriptional activity in a bacterial or a fungal host cell and may be derived from genes encoding proteins either homologous or heterologous to the host cell. The promoter may be a mutant, a truncated and/or a hybrid promoter. The above-mentioned promoters are known in the art.

Examples of suitable promoters useful in fungal cells and particularly filamentous fungal cells such as Trichoderma or Aspergillus cells include such exemplary promoters as the T. reesei promoters cbh1, cbh2, egl1, egl2, eg5, xln1 and xln2. Other examples of useful promoters include promoters from A. awamori and A. niger glucoamylase genes (glaA) (see, Nunberg et al., (1984) Mol. Cell. Biol. 4:2306-2315 and Boel et al., (1984) EMBO J. 3:1581-1585), A. oryzae TAKA amylase promoter, the TPI (triose phosphate isomerase) promoter from S. cerevisiae, the promoter from Aspergillus nidulans acetamidase genes and Rhizomucor miehei lipase genes.

Examples of suitable promoters useful in bacterial cells include those obtained from the E. coli lac operon; Bacillus licheniformis alpha amylase gene (amyL), B. stearothermophilus amylase gene (amyM); Bacillus subtilis xylA and xylB genes, the beta-lactamase gene, and the tac promoter.

In one embodiment, the promoter is one that is native to the host cell. For example, when T. reesei is the host, the promoter is a native T. reesei promoter. In another embodiment, the promoter is one that is heterologous to the fungal host cell. In some embodiments the promoter will be the parent glucoamylase promoter such as the TrGA promoter.

In some embodiments, the DNA construct includes nucleic acids coding for a signal sequence that is an amino acid sequence linked to the amino terminus of the polypeptide that directs the encoded polypeptide into the cell's secretory pathway. The 5′ end of the coding sequence of the nucleic acid sequence may naturally include a signal peptide coding region that is naturally linked in translation reading frame with the segment of the glucoamylase coding sequence that encodes the secreted glucoamylase or the 5′ end of the coding sequence of the nucleic acid sequence may include a signal peptide that is foreign to the coding sequence. In some embodiments, the DNA construct includes a signal sequence that is naturally associated with a parent glucoamylase gene from that a variant glucoamylase has been obtained. In some embodiments the signal sequence will be the sequence depicted in SEQ ID NO: 1 or a sequence having at least 90%, at least 94% and at least 98% sequence identity thereto. Effective signal sequences may include the signal sequences obtained from glucoamylases of other filamentous fungal enzymes, such as from Trichoderma (T. reesei glucoamylase), Humicola (H. insolens cellulase or H. grisea glucoamylase), Aspergillus (A. niger glucoamylase and A. oryzae TAKA amylase), and Rhizopus.

In additional embodiments, a DNA construct or vector comprising a signal sequence and a promoter sequence to be introduced into a host cell are derived from the same source. In some embodiments, the native glucoamylase signal sequence of a Trichoderma glucoamylase homologue, such as a signal sequence from a Hypocrea strain may be used.

In some embodiments, the expression vector also includes a termination sequence. Any terminator sequence functional in the host cell may be used in the present disclosure. In one embodiment, the termination sequence and the promoter sequence are derived from the same source. In another embodiment, the termination sequence is homologous to the host cell. Useful terminator sequence include terminator sequences obtained from the genes of Trichoderma reesei cbh1; A. niger or A. awamori glucoamylase (Nunberg et al. (1984) supra, and Boel et al., (1984) supra), Aspergillus nidulans anthranilate synthase, Aspergillus oryzae TAKA amylase, or A. nidulans trpC (Punt et al., (1987) Gene 56:117-124).

In some embodiments, an expression vector includes a selectable marker. Examples of typical selectable markers include ones that confer antimicrobial resistance (e.g., hygromycin and phleomycin). Nutritional selective markers also find use in the present disclosure including those markers known in the art as amdS (acetamidase), argB (ornithine carbamoyltransferase) and pyrG (orotidine-5′ phosphate decarboxylase). Markers useful in vector systems for transformation of Trichoderma are known in the art (see, e.g., Finkelstein, chapter 6 in BIOTECHNOLOGY OF FILAMENTOUS FUNGI, Finkelstein et al. Eds. Butterworth-Heinemann, Boston, Mass. (1992); Kinghorn et al. (1992) APPLIED MOLECULAR GENETICS OF FILAMENTOUS FUNGI, Blackie Academic and Professional, Chapman and Hall, London; Berges and Barreau (1991) Curr. Genet. 19:359-365; and van Hartingsveldt et al., (1987) Mol. Gen. Genet. 206:71-75). In a typical embodiment, the selective marker is the amdS gene, which encodes the enzyme acetamidase, allowing transformed cells to grow on acetamide as a nitrogen source. The use of A. nidulans amdS gene as a selective marker is described in Kelley et al., (1985) EMBO J. 4:475-479 and Penttilä et al., (1987) Gene 61:155-164.

Methods used to ligate the DNA construct comprising a nucleic acid sequence encoding a variant glucoamylase, a promoter, a terminator and other sequences and to insert them into a suitable vector are well known in the art. Linking is generally accomplished by ligation at convenient restriction sites. If such sites do not exist, synthetic oligonucleotide linkers are used in accordance with conventional practice. (See, Sambrook (1989) supra, and Bennett and Lasure, MORE GENE MANIPULATIONS IN FUNGI, Academic Press, San Diego (1991) pp 70-76.). Additionally, vectors can be constructed using known recombination techniques (e.g., Invitrogen Life Technologies, Gateway Technology).

10. HOST CELLS

The present disclosure also relates to host cells comprising a polynucleotide encoding a variant glucoamylase of the disclosure, which are used to produce the glucoamylases of the disclosure. In some embodiments, the host cells are selected from bacterial, fungal, plant and yeast cells. The term host cell includes both the cells, progeny of the cells and protoplasts created from the cells that are used to produce a variant glucoamylase according to the disclosure.

In some embodiments, the host cells are fungal cells and typically filamentous fungal host cells. The term “filamentous fungi” refers to all filamentous forms of the subdivision Eumycotina (See, Alexopoulos, C. J. (1962), INTRODUCTORY MYCOLOGY, Wiley, New York). These fungi are characterized by a vegetative mycelium with a cell wall composed of chitin, cellulose, and other complex polysaccharides. The filamentous fungi of the present disclosure are morphologically, physiologically, and genetically distinct from yeasts. Vegetative growth by filamentous fungi is by hyphal elongation and carbon catabolism is obligatory aerobic. In the present disclosure, the filamentous fungal parent cell may be a cell of a species of, but not limited to, Trichoderma, (e.g., Trichoderma reesei, the asexual morph of Hypocrea jecorina, previously classified as T. longibrachiatum, Trichoderma viride, Trichoderma koningii, Trichoderma harzianum) (Sheir-Neirs et al., (1984) Appl. Microbiol. Biotechnol 20:46-53; ATCC No. 56765 and ATCC No. 26921); Penicillium sp., Humicola sp. (e.g., H. insolens, H. lanuginosa and H. grisea); Chrysosporium sp. (e.g., C. lucknowense), Gliocladium sp., Aspergillus sp. (e.g., A. oryzae, A. niger, A. sojae, A. japonicus, A. nidulans, and A. awamori) (Ward et al., (1993) Appl. Microbiol. Biotechnol. 39:738-743 and Goedegebuur et al., (2002) Genet. 41:89-98), Fusarium sp., (e.g., F. roseum, F. graminum F. cerealis, F. oxysporuim and F. venenatum), Neurospora sp., (N. crassa), Hypocrea sp., Mucor sp., (M. miehei), Rhizopus sp. and Emericella sp. (see also, Innis et al., (1985) Sci. 228:21-26). The term “Trichoderma” or “Trichoderma sp.” or “Trichoderma spp.” refer to any fungal genus previously or currently classified as Trichoderma.

In some embodiments, the host cells will be gram-positive bacterial cells. Non-limiting examples include strains of Streptomyces, (e.g., S. lividans, S. coelicolor and S. griseus) and Bacillus. As used herein, “the genus Bacillus” includes all species within the genus “Bacillus,” as known to those of skill in the art, including but not limited to B. subtilis, B. licheniformis, B. lentus, B. brevis, B. stearothermophilus, B. alkalophilus, B. amyloliquefaciens, B. clausii, B. halodurans, B. megaterium, B. coagulans, B. circulans, B. lautus, and B. thuringiensis. It is recognized that the genus Bacillus continues to undergo taxonomical reorganization. Thus, it is intended that the genus include species that have been reclassified, including but not limited to such organisms as B. stearothermophilus, which is now named “Geobacillus stearothermophilus.”

In some embodiments the host cell is a gram-negative bacterial strain, such as E. coli or Pseudomonas sp. In other embodiments, the host cells may be yeast cells such as Saccharomyces sp., Schizosaccharomyces sp., Pichia sp., or Candida sp.

In other embodiments, the host cell will be a genetically engineered host cell wherein native genes have been inactivated, for example by deletion in bacterial or fungal cells. Where it is desired to obtain a fungal host cell having one or more inactivated genes known methods may be used (e.g. methods disclosed in U.S. Pat. No. 5,246,853, U.S. Pat. No. 5,475,101, and WO 92/06209). Gene inactivation may be accomplished by complete or partial deletion, by insertional inactivation or by any other means that renders a gene nonfunctional for its intended purpose (such that the gene is prevented from expression of a functional protein). In some embodiments, when the host cell is a Trichoderma cell and particularly a T. reesei host cell, the cbh1, cbh2, egl1 and egl2 genes will be inactivated and/or typically deleted. Typically, Trichoderma reesei host cells having quad-deleted proteins are set forth and described in U.S. Pat. No. 5,847,276 and WO 05/001036. In other embodiments, the host cell is a protease deficient or protease minus strain.

11. TRANSFORMATION OF HOST CELLS

Introduction of a DNA construct or vector into a host cell includes techniques such as transformation; electroporation; nuclear microinjection; transduction; transfection, (e.g., lipofection mediated and DEAE-Dextrin mediated transfection); incubation with calcium phosphate DNA precipitate; high velocity bombardment with DNA-coated microprojectiles; and protoplast fusion. General transformation techniques are known in the art (See, e.g., Ausubel et al., (1987), supra, chapter 9; and Sambrook (1989) supra, and Campbell et al., (1989) Curr. Genet. 16:53-56).

Transformation methods for Bacillus are disclosed in numerous references including Anagnostopoulos C and J. Spizizen (1961) J. Bacteriol. 81:741-746 and WO 02/14490.

Transformation methods for Aspergillus are described in Yelton et al (1984) Proc. Natl. Acad. Sci. USA 81:1470-1474; Berka et al., (1991) in Applications of Enzyme Biotechnology, Eds. Kelly and Baldwin, Plenum Press (NY); Cao et al., (2000) Science 9:991-1001; Campbell et al., (1989) Curr. Genet. 16:53-56 and EP 238 023. The expression of heterologous protein in Trichoderma is described in U.S. Pat. No. 6,022,725; U.S. Pat. No. 6,268,328; Harkki et al. (1991); Enzyme Microb. Technol. 13:227-233; Harkki et al., (1989) Bio Technol. 7:596-603; EP 244,234; EP 215,594; and Nevalainen et al., “The Molecular Biology of Trichoderma and its Application to the Expression of Both Homologous and Heterologous Genes”, in MOLECULAR INDUSTRIAL MYCOLOGY, Eds. Leong and Berka, Marcel Dekker Inc., NY (1992) pp. 129-148). Reference is also made to WO96/00787 and Bajar et al., (1991) Proc. Natl. Acad. Sci. USA 88:8202-8212 for transformation of Fusarium strains.

In one specific embodiment, the preparation of Trichoderma sp. for transformation involves the preparation of protoplasts from fungal mycelia (See, Campbell et al., (1989) Curr. Genet. 16:53-56; Pentilla et al., (1987) Gene 61:155-164). Agrobacterium tumefaciens-mediated transformation of filamentous fungi is known (See, de Groot et al., (1998) Nat. Biotechnol. 16:839-842). Reference is also made to U.S. Pat. No. 6,022,725 and U.S. Pat. No. 6,268,328 for transformation procedures used with filamentous fungal hosts.

Typically, genetically stable transformants are constructed with vector systems whereby the nucleic acid encoding the variant glucoamylase is stably integrated into a host strain chromosome. Transformants are then purified by known techniques.

In some further embodiments, the host cells are plant cells, such as cells from a monocot plant (e.g. corn, wheat and sorghum) or cells from a dicot plant (e.g. soybean). Methods for making DNA constructs useful in transformation of plants and methods for plant transformation are known. Some of these methods include Agrobacterium tumefaciens mediate gene transfer; microprojectile bombardment, PEG mediated transformation of protoplasts, electroporation and the like. Reference is made to (U.S. Pat. No. 6,803,499, U.S. Pat. No. 6,777,589; Fromm et al (1990) Biotechnol. 8:833-839; Potrykus et al (1985) Mol. Gen. Genet. 199:169-177.

12. PRODUCTION OF PROTEINS

The present disclosure further relates to methods of producing the variant glucoamylases comprising transforming a host cell with an expression vector comprising a polynucleotide encoding a variant glucoamylase according to the disclosure, optionally culturing the host cell under conditions suitable for production of the variant glucoamylase and optionally recovering the glucoamylase.

In the expression and production methods of the present disclosure the host cells are cultured under suitable conditions in shake flask cultivation, small scale or large scale fermentations (including continuous, batch and fed batch fermentations) in laboratory or industrial fermentors, with suitable medium containing physiological salts and nutrients (see, e.g., Pourquie, J. et al., BIOCHEMISTRY AND GENETICS OF CELLULOSE DEGRADATION, eds. Aubert, J. P. et al., Academic Press, pp. 71-86, 1988 and Ilmen, M. et al., (1997) Appl. Environ. Microbiol. 63:1298-1306). Common commercially prepared media (e.g., Yeast Malt Extract (YM) broth, Luria Bertani (LB) broth and Sabouraud Dextrose (SD) broth) find use in the present disclosure. Representative culture conditions for bacterial and filamentous fungal cells are known in the art and may be found in the scientific literature and/or from the source of the fungi such as the American Type Culture Collection and Fungal Genetics Stock Center. In cases where a glucoamylase coding sequence is under the control of an inducible promoter, the inducing agent (e.g., a sugar, metal salt or antimicrobial), is added to the medium at a concentration effective to induce glucoamylase expression.

In some embodiments, the present disclosure relates to methods of producing the variant glucoamylase comprising cultivating a plant or plant cell comprising a polynucleotide encoding a variant glucoamylase according to the disclosure under conditions suitable for the production of the variant and optionally recovering the glucoamylase.

In some embodiments, in order to evaluate the expression of a variant glucoamylase by a cell line that has been transformed with a polynucleotide encoding a variant glucoamylase encompassed by the disclosure, assays are carried out at the protein level, the RNA level and/or by use of functional bioassays particular to glucoamylase activity and/or production. Some of these assays include Northern blotting, dot blotting (DNA or RNA analysis), RT-PCR (reverse transcriptase polymerase chain reaction), or in situ hybridization, using an appropriately labeled probe (based on the nucleic acid coding sequence) and conventional Southern blotting and autoradiography.

In addition, the production and/or expression of a variant glucoamylase may be measured in a sample directly, for example, by assays directly measuring reducing sugars such as glucose in the culture medium and by assays for measuring glucoamylase activity, expression and/or production. In particular, glucoamylase activity may be assayed by the 3,5-dinitrosalicylic acid (DNS) method (see, Goto et al., (1994) Biosci. Biotechnol. Biochem. 58:49-54). In additional embodiments, protein expression, is evaluated by immunological methods, such as immunohistochemical staining of cells, tissue sections or immunoassay of tissue culture medium, (e.g., by Western blot or ELISA). Such immunoassays can be used to qualitatively and quantitatively evaluate expression of a glucoamylase. The details of such methods are known to those of skill in the art and many reagents for practicing such methods are commercially available.

The glucoamylases of the present disclosure may be recovered or purified from culture media by a variety of procedures known in the art including centrifugation, filtration, extraction, precipitation and the like.

13. COMPOSITIONS

The variant glucoamylases may be used in enzyme compositions including but not limited to starch hydrolyzing and saccharifying compositions, cleaning and detergent compositions (e.g., laundry detergents, dish washing detergents, and hard surface cleaning compositions), alcohol fermentation compositions, and in animal feed compositions. Further the variant glucoamylases may be used in baking applications, such as bread and cake production, brewing, healthcare, textile, environmental waste conversion processes, biopulp processing, and biomass conversion applications.

In some embodiments, an enzyme composition including a variant glucoamylase encompassed by the disclosure obtained in culture media or recovered and purified from the culture medium will be optionally used in combination with any one or combination of the following enzymes—alpha amylases, proteases, pullulanases, isoamylases, cellulases, hemicellulases, xylanases, cyclodextrin glycotransferases, lipases, phytases, laccases, oxidases, esterases, cutinases, xylanases, granular starch hydrolyzing enzyme and other glucoamylases. In one embodiment, the proteases are acid fungal proteases (AFP). In a further embodiment, the acid fungal proteases are from Trichoderma (e.g., NSP-24, see also US 2006/0154353, published Jul. 13, 2006, incorporated herein by reference). In a further embodiment, the phytase is from Buttiauxiella.spp. (e.g., BP-17, see also variants disclosed in PCT patent publication WO 2006/043178).

In some representative compositions, the variant glucoamylases of the disclosure will be combined with an alpha amylase, such as fungal alpha amylases (e.g., Aspergillus sp.) or bacterial alpha amylases (e.g., Bacillus sp. such as B. stearothermophilus, B. amyloliquefaciens and B. licheniformis) and variants and hybrids thereof. In one embodiment the alpha amylase is an acid stable alpha amylase. In one embodiment, the alpha amylase is a granular starch hydrolyzing enzyme (GSHE). In one embodiment, the alpha amylase is Aspergillus kawachi alpha amylase (AKAA), see U.S. Pat. No. 7,037,704. Commercially available alpha amylases contemplated for use in the compositions of the disclosure are known and include GZYME G997, SPEZYME FRED, SPEZYME XTRA, STARGEN (Danisco US, Inc, Genencor Division), TERMAMYL 120-L and SUPRA (Novozymes, Biotech.) and VIRIDIUM (Diversa).

In other embodiments, the variant glucoamylases of the disclosure may be combined with other glucoamylases. In some embodiments, the glucoamylases of the disclosure will be combined with one or more glucoamylases derived from strains of Aspergillus or variants thereof, such as A. oryzae, A. niger, A. kawachi, and A. awamori; glucoamylases derived from strains of Humicola or variants thereof, particularly H. grisea, such as the glucoamylase having at least 90%, 93%, 95%, 96%, 97%, 98% and 99% sequence identity to SEQ ID NO: 3 disclosed in WO 05/052148; glucoamylases derived from strains of Talaromyces or variants thereof, particularly T. emersonii; glucoamylases derived from strains of Athelia and particularly A. rolfsii; glucoamylases derived from strains of Penicillium, particularly P. chrysogenum.

14. USES

In particular, the variant glucoamylases may be used for starch conversion processes, and particularly in the production of dextrose for fructose syrups, specialty sugars and in alcohol and other end-product (e.g., organic acid, ascorbic acid, and amino acids) production from fermentation of starch containing substrates (G. M. A van Beynum et al., Eds. (1985) STARCH CONVERSION TECHNOLOGY, Marcel Dekker Inc. NY). Dextrins produced using variant glucoamylase compositions of the disclosure may result in glucose yields of at least 80%, at least 85%, at least 90% and at least 95%. Production of alcohol from the fermentation of starch substrates using glucoamylases encompassed by the disclosure may include the production of fuel alcohol or portable alcohol. In some embodiments, the production of alcohol will be greater when the variant glucoamylase is used under the same conditions as the parent glucoamylase. In some embodiments, the production of alcohol will be between about 0.5% and 2.5% better, including but not limited to 0.6%, 0.7%, 0.8%, 0.9%, 1.0%, 1.1%, 1.2%, 1.3%, 1.4%, 1.5%, 1.6%. 1.7%, 1.8%, 1.9%, 2.0%, 2.1%, 2.2%, 2.3%, and 2.4% more alcohol than the parent glucoamylase.

In one representative embodiment, the variant glucoamylases of the disclosure will find use in the hydrolysis of starch from various plant-based substrates, which are used for alcohol production. In some embodiments, the plant-based substrates will include corn, wheat, barley, rye, milo, rice, sugar cane, potatoes and combinations thereof. In some embodiments, the plant-based substrate will be fractionated plant material, for example a cereal grain such as corn, which is fractionated into components such as fiber, germ, protein and starch (endosperm) (U.S. Pat. No. 6,254,914 and U.S. Pat. No. 6,899,910). Methods of alcohol fermentations are described in THE ALCOHOL TEXTBOOK, A REFERENCE FOR THE BEVERAGE, FUEL AND INDUSTRIAL ALCOHOL INDUSTRIES, 3^(rd) Ed., Eds K. A. Jacques et al., 1999, Nottingham University Press, UK. In certain embodiments, the alcohol will be ethanol. In particular, alcohol fermentation production processes are characterized as wet milling or dry milling processes. In some embodiments, the variant glucoamylase will be used in a wet milling fermentation process and in other embodiments the variant glucoamylase will find use in a dry milling process.

Dry grain milling involves a number of basic steps, which generally include: grinding, cooking, liquefaction, saccharification, fermentation and separation of liquid and solids to produce alcohol and other co-products. Plant material and particularly whole cereal grains, such as corn, wheat or rye are ground. In some cases the grain may be first fractionated into component parts. The ground plant material may be milled to obtain a coarse or fine particle. The ground plant material is mixed with liquid (e.g., water and/or thin stillage) in a slurry tank. The slurry is subjected to high temperatures (e.g., 90° C. to 105° C. or higher) in a jet cooker along with liquefying enzymes (e.g., alpha amylases) to solublize and hydrolyze the starch in the grain to dextrins. The mixture is cooled down and further treated with saccharifying enzymes, such as glucoamylases encompassed by the instant disclosure, to produce glucose. The mash containing glucose may then be fermented for approximately 24 to 120 hours in the presence of fermentation microorganisms, such as ethanol producing microorganism and particularly yeast (Saccharomyces spp.). The solids in the mash are separated from the liquid phase and alcohol such as ethanol and useful co-products such as distillers' grains are obtained.

In some embodiments, the saccharification step and fermentation step are combined and the process is referred to as simultaneous saccharification and fermentation or simultaneous saccharification, yeast propagation and fermentation.

In other embodiments, the variant glucoamylase is used in a process for starch hydrolysis wherein the temperature of the process is carried out at a temperature of between 30° C. and 75° C. and also at a temperature of between 40° C. and 65° C. at a pH range of between pH 3.0 and pH 6.5. The fermentation processes in some embodiments include milling of a cereal grain or fractionated grain and combining the ground cereal grain with liquid to form a slurry that is then mixed in a single vessel with a variant glucoamylase according to the disclosure and optionally other enzymes such as but not limited to alpha amylases, other glucoamylases, phytases, proteases, pullulanases, isoamylases or other enzymes having granular starch hydrolyzing activity and yeast to produce ethanol and other co-products (U.S. Pat. No. 4,514,496, WO 04/081193 and WO 04/080923).

In some embodiments, the disclosure pertains to a method of saccharifying a liquid starch solution, which comprises an enzymatic saccharification step using a variant glucoamylase of the disclosure.

The present disclosure also provides an animal feed comprising at least one variant glucoamylase encompassed by the disclosure. Methods of using a glucoamylase enzyme in the production of feeds comprising starch are provided in WO 03/049550, filed Dec. 13, 2002 (herein incorporated by reference in its entirety). Briefly, the glucoamylase variant is admixed with a feed comprising starch. The glucoamylase is capable of degrading resistant starch for use by the animal

Other objects and advantages of the present disclosure are apparent from the present Specification.

EXAMPLES

The following examples are provided in order to demonstrate and further illustrate certain representative embodiments and aspect of the present disclosure and are not to be construed as limiting the scope thereof.

In the disclosure and experimental section that follows, the following abbreviations apply: GA (glucoamylase); GAU (glucoamylase unit); wt % (weight percent); ° C. (degrees Centigrade); rpm (revolutions per minute); H₂O (water); dH₂O (deionized water); dIH₂O (deionized water, Milli-Q filtration); aa or AA (amino acid); by (base pair); kb (kilobase pair); kD (kilodaltons); g or gm (grams); μg (micrograms); mg (milligrams); μL (microliters); ml and mL (milliliters); mm (millimeters); μm (micrometer); M (molar); mM (millimolar); μM (micromolar); U (units); V (volts); MW (molecular weight); sec(s) or s(s) (second/seconds); min(s) or m(s) (minute/minutes); hr(s) or h(s) (hour/hours); DO (dissolved oxygen); ABS (Absorbance); EtOH (ethanol); PSS (physiological salt solution; m/v (mass/volume); and MTP (microtiter plate); N (Normal); DP1 (monosaccharides); DP2 (disaccharides); DP>3 (oligosaccharides, sugars having a degree of polymerization greater than 3); ppm (parts per million).

The methods used to provide variants are described below. However, it should be noted that different methods may be used to provide variants of a parent molecule and the disclosure is not limited to the methods used in the examples. It is intended that any suitable means for making variants and selection of variants may be used.

pNPG Glucoamylase Activity Assay for 96-Well Microtiter Plates:

The reagent solutions were: NaAc buffer: 200 mM sodium acetate buffer pH 4.5; Substrate: 50 mM p-nitrophenyl-α-D-glucopyranoside (Sigma N-1377) in NaAc buffer (0.3 g/20 ml) and stop solution: 800 mM glycine-NaOH buffer pH 10. 30 μl filtered supernatant was placed in a fresh 96-well flat bottom MTP. To each well 50 μl NaAc buffer and 120 μl substrate was added and incubated for 30 minutes at 50° C. (Thermolab systems iEMS Incubator/shaker HT). The reaction was terminated by adding 100 μl stop solution. The absorbance was measured at 405 nm in a MTP-reader (Molecular Devices Spectramax 384 plus) and the activity was calculated using a molar extinction coefficient of 0.011 μM/cm.

Thermal Stability Assay:

Crude supernatant (100 μl) was added to 100 μl 50 mM NaAc buffer pH 4.5. the sample was equally divided over 2 MTP. One MTP (initial plate) was incubated for 1 hr at 4° C. and the other MTP (residual plate) was incubated at 60° C. (Thermolab systems iEMS Incubator/Shaker HT) for 1 hr. The residual plate was chilled for 15 min on ice. Activity is measured on both plates using the ethanol application assay described below, with the following modification: the amount of sample taken for the thermostability assay is 25 μl and the amount of 30 mM NaAc buffer pH 4.0 is 35 μl.

Thermostability is calculated as % residual activity as follows:

$\frac{{A\; B\; S\mspace{14mu} (340)\mspace{14mu} {residual}} - {blank}}{{A\; B\; S\mspace{14mu} (340)\mspace{14mu} {initial}} - {blank}} \times 100\%$

The crude supernatant material is tested for remaining glucose in the culture medium after the growth period. If remaining glucose is found, the absorbance value is subtracted from the measured absorbance values of both the initial activity as the residual activity.

Bradford Assay for Protein Quantification in 96-Well Microtiter Plates:

The reagent solution was Bradford Quickstart work solution (BioRad cat#500-0205). 100 μl of 10 kD-filtered supernatant was placed in a fresh 96-well flat bottom plate. To each well 200 μl reagent was added and incubated for 5 minutes at room temperature. The absorbance was measured at 595 nm in a MTP-reader (Molecular Devices Spectramax 384 plus). Protein concentrations were calculated according to a Bovine Serum Albumin (BSA) (0-50 μg/ml) standard curve.

Hexokinase Activity Assay:

Hexokinase cocktail: 10-15 minutes prior to use, 90 ml water was added to a BoatIL container glucose HK R1(IL test glucose (HK) kit, Instrument Laboratory #182507-40) and gently mixed. 85 μl of Hexokinase cocktail were added to 100 μl of dH₂O. 15 μl of sample were added to the mixtures and incubated for 5 mins in the dark at room temperature. Absorbance was read at 340 nm in a MTP-reader. Glucose concentrations were calculated according to a glucose (0-1 mg/ml) standard curve.

Assay Conditions Ethanol Application:

To prepare the 8% stock solution, 8 g of soluble corn starch (Sigma #S4180) was suspended in 40 ml dH₂O at room temperature. Fifty milliliters of boiling dH₂O was added to the slurry in a 250 ml flask and cooked for 5 minutes. The starch solution was cooled to 25° C. and the volume adjusted to 100 ml with dH₂O. The 4% (m/v) soluble starch working solution was prepared by diluting (1:1) the stock solution with 100 mM sodium acetate buffer pH 3.7.

For the screening assay, 5 ml crude supernatant was diluted with 175 μl, 50 mM NaAc buffer pH 4.5 in a flat bottom 96-well MTP. Sixty microliters of this dilution was added to 120 μl 4% soluble corn starch and incubated at 900 rpm for 2 hrs at 32° C. (Thermolab systems iEMS Incubator/Shaker HT). The reaction was stopped by adding 90 μl 4° C.-cold Stop Solution (800 mM Glycine-NaOH buffer, pH 10). The sample was placed on ice. Starch was spun down at 1118×g at 15° C. for 5 minutes (SIGMA 6K15) and 15 μl supernatant was used in the Hexokinase activity assay described above to determine the glucose content.

The crude supernatant material was tested for remaining glucose in the culture medium after the growth period. If remaining glucose was found, the amount of glucose produced by the glucoamylase was not calculated.

Assay Conditions Sweetener Application:

To prepare the 8% stock solution, 8 g of soluble starch (Sigma #S4180) was suspended in 40 ml water at room temperature. Then, 50 ml of boiling dH₂O was added to the slurry in a 250 ml flask and cooked for 5 mins The starch solution was cooled to 25° C. and the volume adjusted to 100 ml with dH₂O. The 4% (m/v) soluble starch working solution was prepared by diluting stock solution 1:1 with 100 mM sodium acetate buffer pH 4.5.

Fifty microliters of 80 mM NaAc buffer pH 4.5 were placed in a fresh 96-well flat bottom plate. To each well, 120 μl 4% soluble cornstarch and 5 μl 10 kD-filtered supernatant was added and incubated for 1 hr at 60° C. The reaction was stopped by adding 90 μl 4° C. cold Stop Solution (800 mM Glycine-NaOH buffer, pH 10.0). The sample was placed on ice for 30 mins Starch was spun down at 716 rpm at 15° C. for 5 minutes (Sigma 6K15, centrifuge) and 15 μl of the supernatant was used in the Hexokinase activity assay described herein to determine glucose content.

Example 1 Construction of the pREP3Y-TrGA Vector

The TrGA expression cassette composed of the DNA sequence (SEQ ID NO: 4) encoding the TrGA signal peptide, the pro-sequence, and the mature protein, including the catalytic domain, linker region and starch binding domain, was cloned into pDONR™201, a Gateway® Entry vector (Invitrogen, Carlsbad, Calif., USA). The TrGA expression cassette was cloned into the Gateway compatible destination vector pREP3Y-DEST (FIG. 3) by the Gateway® LR recombination reaction.

The pRep3Y-TrGA expression vector (FIG. 3B) enabled the expression of the TrGA protein (SEQ ID NO: 2) in Schizosaccharomyces pombe.

Sixty-five TrGA site saturated mutagenesis (SSM) libraries were constructed using the pDONR-TrGA entry vector (FIG. 2) as a template and the primers listed in Table 2. The mutagenesis primers used in the experiments all contain the triple DNA sequence code NNS (N=A,C,T,G and S═C or G) at the position that corresponds with the codon of the TrGA sequence to be mutated (SEQ ID NO: 2) and initiated random incorporation of nucleotides at that position. Construction of each SSM library started with two PCR amplifications using the Gateway forward (pDONR201-FW) and a specific reverse mutagenesis primer (Table 3), and Gateway reversed (pDONR201-RV) primer and a specific forward mutagenesis primer (Table 2) (equal positions for the mutagenesis primers). Phusion high fidelity DNA polymerase (Finnzymes O Y, Espoo, Finland) was used for PCR amplification (0.2 μM primers, 25 cycles) according to the protocol provided by Finnzymes. Briefly, 1 μl (SEQ ID NO: 1), DNA fragment of both specific PCR mixes, both targeted at the same codon were added to 48 μl of fresh PCR reaction solution together with primers Gateway FW and Gateway RV (Invitrogen) and mixed. This fusion PCR amplification (22 cycles) resulted in a linear expression cassette DNA fragment with a specific TrGA codon randomly mutated and unique Gateway recombination sites on both ends. Purification of this DNA fragment (ChargeSwitch® PCR clean-up, Invitrogen, Carlsbad USA) and a BP recombination reaction (Invitrogen, Carlsbad, USA) with pDONR201 (Invitrogen) generated a circular multimeric DNA (entry vector) that was subsequently transformed to E. coli Max efficiency DH5α (Invitrogen) and plated on 2×TY medium [Bacto Tryptone (Difco) 16 g/L, Bacto Yeast Extract (Difco) 10 g/L, NaCL 5 g/L] supplemented with 50 μg/mL kanamycin.

TABLE 2 Forward primers used to generate TrGA SSM libraries SEQ Prim- ID ers DNA SEQUENCE 5′ TO 3′ NO: pDONR- TCGCGTTAACGCTAGCATGGATCTC 10 201- FW D4F TCTGTTGACNNSTTCATCAGCACCGAGACGC 11 F5F TCTGTTGACGACNNSATCAGCACCGAGACGCCTA 12 I12F ATCAGCACCGAGACGCCTNNSGCACTGAACAATCTTCTTT 13 D24F CTTTGCAATGTTGGTCCTNNSGGATGCCGTGCATTCGGCA 14 F29F CCTGATGGATGCCGTGCANNSGGCACATCAGCTGGTGCGG 15 I43F ATTGCATCTCCCAGCACANNSGACCCGGACTACTATTACA 16 D44F GCATCTCCCAGCACAATTNNSCCGGACTACTATTACATGT 17 P45F TCTCCCAGCACAATTGACNNSGACTACTATTACATGTGGA 18 D46F CCCAGCACAATTGACCCGNNSTACTATTACATGTGGACGC 19 Y47F AGCACAATTGACCCGGACNNSTATTACATGTGGACGCGAG 20 Y49F ATTGACCCGGACTACTATNNSATGTGGACGCGAGATAGCG 21 W51F CCGGACTACTATTACATGNNSACGCGAGATAGCGCTCTTG 22 Y70F GACCGCTTCACCGAAACGNNSGATGCGGGCCTGCAGCGCC 23 Q75F ACGTACGATGCGGGCCTGNNSCGCCGCATCGAGCAGTACA 24 R76F TACGATGCGGGCCTGCAGNNSCGCATCGAGCAGTACATTA 25 P94F CTCCAGGGCCTCTCTAACNNSTCGGGCTCCCTCGCGGACG 26 D100F CCCTCGGGCTCCCTCGCGNNSGGCTCTGGTCTCGGCGAGC 27 K114F AAGTTTGAGTTGACCCTGNNSCCTTTCACCGGCAACTGGG 28 F116F GAGTTGACCCTGAAGCCTNNSACCGGCAACTGGGGTCGAC 29 N119F CTGAAGCCTTTCACCGGCNNSTGGGGTCGACCGCAGCGGG 30 R122F TTCACCGGCAACTGGGGTNNSCCGCAGCGGGATGGCCCAG 31 R125F AACTGGGGTCGACCGCAGNNSGATGGCCCAGCTCTGCGAG 32 N146F AAGTGGCTCATCAACAACNNSTATCAGTCGACTGTGTCCA 33 Q148F CTCATCAACAACAACTATNNSTCGACTGTGTCCAACGTCA 34 Y169F CTCAACTATGTTGCCCAGNNSTGGAACCAAACCGGCTTTG 35 Q172F GTTGCCCAGTACTGGAACNNSACCGGCTTTGACCTCTGGG 36 F175F TACTGGAACCAAACCGGCNNSGACCTCTGGGAAGAAGTCA 37 W178F CAAACCGGCTTTGACCTCNNSGAAGAAGTCAATGGGAGCT 38 El80F GGCTTTGACCTCTGGGAANNSGTCAATGGGAGCTCATTCT 39 V181F TTTGACCTCTGGGAAGAANNSAATGGGAGCTCATTCTTTA 40 Q208F CTTGCTGCCACTCTTGGCNNSTCGGGAAGCGCTTATTCAT 41 S211F ACTCTTGGCCAGTCGGGANNSGCTTATTCATCTGTTGCTC 42 W228F TGCTTTCTCCAACGATTCNNSGTGTCGTCTGGTGGATACG 43 N242F GACTCCAACATCAACACCNNSGAGGGCAGGACTGGCAAGG 44 E243F TCCAACATCAACACCAACNNSGGCAGGACTGGCAAGGATG 45 R245F ATCAACACCAACGAGGGCNNSACTGGCAAGGATGTCAACT 46 I292F GTCGACTCCTTCCGCTCCNNSTACGGCGTGAACAAGGGCA 47 G294F TCCTTCCGCTCCATCTACNNSGTGAACAAGGGCATTCCTG 48 K297F TCCATCTACGGCGTGAACNNSGGCATTCCTGCCGGTGCTG 49 R309F GCTGCCGTCGCCATTGGCNNSTATGCAGAGGATGTGTACT 50 Y310F GCCGTCGCCATTGGCCGGNNSGCAGAGGATGTGTACTACA 51 D313F ATTGGCCGGTATGCAGAGNNSGTGTACTACAACGGCAACC 52 V314F GGCCGGTATGCAGAGGATNNSTACTACAACGGCAACCCTT 53 Y315F CGGTATGCAGAGGATGTGNNSTACAACGGCAACCCTTGGT 54 Y316F TATGCAGAGGATGTGTACNNSAACGGCAACCCTTGGTATC 55 N317F GCAGAGGATGTGTACTACNNSGGCAACCCTTGGTATCTTG 56 W321F TACTACAACGGCAACCCTNNSTATCTTGCTACATTTGCTG 57 K340F GATGCCATCTACGTCTGGNNSAAGACGGGCTCCATCACGG 58 K341F GCCATCTACGTCTGGAAGNNSACGGGCTCCATCACGGTGA 59 T350F TCCATCACGGTGACCGCCNNSTCCCTGGCCTTCTTCCAGG 60 Q356F ACCTCCCTGGCCTTCTTCNNSGAGCTTGTTCCTGGCGTGA 61 T363F GAGCTTGTTCCTGGCGTGNNSGCCGGGACCTACTCCAGCA 62 S368F GTGACGGCCGGGACCTACNNSAGCAGCTCTTCGACCTTTA 63 S369F ACGGCCGGGACCTACTCCNNSAGCTCTTCGACCTTTACCA 64 N376F AGCTCTTCGACCTTTACCNNSATCATCAACGCCGTCTCGA 65 Y395F CTCAGCGAGGCTGCCAAGNNSGTCCCCGCCGACGGTTCGC 66 A398F GCTGCCAAGTACGTCCCCNNSGACGGTTCGCTGGCCGAGC 67 S401F TACGTCCCCGCCGACGGTNNSCTGGCCGAGCAGTTTGACC 68 R408F CTGGCCGAGCAGTTTGACNNSAACAGCGGCACTCCGCTGT 69 N409F GCCGAGCAGTTTGACCGCNNSAGCGGCACTCCGCTGTCTG 70 T412F TTTGACCGCAACAGCGGCNNSCCGCTGTCTGCGCTTCACC 71 H418F ACTCCGCTGTCTGCGCTTNNSCTGACGTGGTCGTACGCCT 72 W421F TCTGCGCTTCACCTGACGNNSTCGTACGCCTCGTTCTTGA 73 R433F TTGACAGCCACGGCCCGTNNSGCTGGCATCGTGCCCCCCT 74 I436F ACGGCCCGTCGGGCTGGCNNSGTGCCCCCCTCGTGGGCCA 75 S451F AGCGCTAGCACGATCCCCNNSACGTGCTCCGGCGCGTCCG 76

TABLE 3 Primers used to generate TrGA SSM libraries SEQ ID Primer DNA sequence 5′ to 3′ NO: pDON- GTAACATCAGAGATTTTGAGACAC  77 201- RV D4R GCGTCTCGGTGCTGATGAASNNGTCAACAGA  78 F5R TAGGCGTCTCGGTGCTGATSNNGTCGTCAACAGA  79 I12R AAAGAAGATTGTTCAGTGCSNNAGGCGTCTCGGTGCTGAT  80 D24R TGCCGAATGCACGGCATCCSNNAGGACCAACATTGCAAAG  81 F29R CCGCACCAGCTGATGTGCCSNNTGCACGGCATCCATCAGG  82 I43R TGTAATAGTAGTCCGGGTCSNNTGTGCTGGGAGATGCAAT  83 D44R ACATGTAATAGTAGTCCGGSNNAATTGTGCTGGGAGATGC  84 P45R TCCACATGTAATAGTAGTCSNNGTCAATTGTGCTGGGAGA  85 D46R GCGTCCACATGTAATAGTASNNCGGGTCAATTGTGCTGGG  86 Y47R CTCGCGTCCACATGTAATASNNGTCCGGGTCAATTGTGCT  87 Y49R CGCTATCTCGCGTCCACATSNNATAGTAGTCCGGGTCAAT  88 W51R CAAGAGCGCTATCTCGCGTSNNCATGTAATAGTAGTCCGG  89 Y70R GGCGCTGCAGGCCCGCATCSNNCGTTTCGGTGAAGCGGTC  90 Q75R TGTACTGCTCGATGCGGCGSNNCAGGCCCGCATCGTACGT  91 R76R TAATGTACTGCTCGATGCGSNNCTGCAGGCCCGCATCGTA  92 P94R CGTCCGCGAGGGAGCCCGASNNGTTAGAGAGGCCCTGGAG  93 D100R GCTCGCCGAGACCAGAGCCSNNCGCGAGGGAGCCCGAGGG  94 K114R CCCAGTTGCCGGTGAAAGGSNNCAGGGTCAACTCAAACTT  95 F116R GTCGACCCCAGTTGCCGGTSNNAGGCTTCAGGGTCAACTC  96 N119R CCCGCTGCGGTCGACCCCASNNGCCGGTGAAAGGCTTCAG  97 R122R CTGGGCCATCCCGCTGCGGSNNACCCCAGTTGCCGGTGAA  98 R125R CTCGCAGAGCTGGGCCATCSNNCTGCGGTCGACCCCAGTT  99 N146R TGGACACAGTCGACTGATASNNGTTGTTGATGAGCCACTT 100 Q148R TGACGTTGGACACAGTCGASNNATAGTTGTTGTTGATGAG 101 Y169R CAAAGCCGGTTTGGTTCCASNNCTGGGCAACATAGTTGAG 102 Q172R CCCAGAGGTCAAAGCCGGTSNNGTTCCAGTACTGGGCAAC 103 F175R TGACTTCTTCCCAGAGGTCSNNGCCGGTTTGGTTCCAGTA 104 W178R AGCTCCCATTGACTTCTTCSNNGAGGTCAAAGCCGGTTTG 105 El80R AGAATGAGCTCCCATTGACSNNTTCCCAGAGGTCAAAGCC 106 V181R TAAAGAATGAGCTCCCATTSNNTTCTTCCCAGAGGTCAAA 107 Q208R ATGAATAAGCGCTTCCCGASNNGCCAAGAGTGGCAGCAAG 108 S211R GAGCAACAGATGAATAAGCSNNTCCCGACTGGCCAAGAGT 109 W228R CGTATCCACCAGACGACACSNNGAATCGTTGGAGAAAGCA 110 N242R CCTTGCCAGTCCTGCCCTCSNNGGTGTTGATGTTGGAGTC 111 E243R CATCCTTGCCAGTCCTGCCSNNGTTGGTGTTGATGTTGGA 112 R245R AGTTGACATCCTTGCCAGTSNNGCCCTCGTTGGTGTTGAT 113 I292R TGCCCTTGTTCACGCCGTASNNGGAGCGGAAGGAGTCGAC 114 G294R CAGGAATGCCCTTGTTCACSNNGTAGATGGAGCGGAAGGA 115 K297R CAGCACCGGCAGGAATGCCSNNGTTCACGCCGTAGATGGA 116 R309R AGTACACATCCTCTGCATASNNGCCAATGGCGACGGCAGC 117 Y310R TGTAGTACACATCCTCTGCSNNCCGGCCAATGGCGACGGC 118 D313R GGTTGCCGTTGTAGTACACSNNCTCTGCATACCGGCCAAT 119 V314R AAGGGTTGCCGTTGTAGTASNNATCCTCTGCATACCGGCC 120 Y315R ACCAAGGGTTGCCGTTGTASNNCACATCCTCTGCATACCG 121 Y316R GATACCAAGGGTTGCCGTTSNNGTACACATCCTCTGCATA 122 N317R CAAGATACCAAGGGTTGCCSNNGTAGTACACATCCTCTGC 123 W321R CAGCAAATGTAGCAAGATASNNAGGGTTGCCGTTGTAGTA 124 K340R CCGTGATGGAGCCCGTCTTSNNCCAGACGTAGATGGCATC 125 K341R TCACCGTGATGGAGCCCGTSNNCTTCCAGACGTAGATGGC 126 T350R CCTGGAAGAAGGCCAGGGASNNGGCGGTCACCGTGATGGA 127 Q356R TCACGCCAGGAACAAGCTCSNNGAAGAAGGCCAGGGAGGT 128 T363R TGCTGGAGTAGGTCCCGGCSNNCACGCCAGGAACAAGCTC 129 S368R TAAAGGTCGAAGAGCTGCTSNNGTAGGTCCCGGCCGTCAC 130 S369R TGGTAAAGGTCGAAGAGCTSNNGGAGTAGGTCCCGGCCGT 131 N376R TCGAGACGGCGTTGATGATSNNGGTAAAGGTCGAAGAGCT 132 Y395R GCGAACCGTCGGCGGGGACSNNCTTGGCAGCCTCGCTGAG 133 A398R GCTCGGCCAGCGAACCGTCSNNGGGGACGTACTTGGCAGC 134 S401R GGTCAAACTGCTCGGCCAGSNNACCGTCGGCGGGGACGTA 135 R408R ACAGCGGAGTGCCGCTGTTSNNGTCAAACTGCTCGGCCAG 136 N409R CAGACAGCGGAGTGCCGCTSNNGCGGTCAAACTGCTCGGC 137 T412R GGTGAAGCGCAGACAGCGGSNNGCCGCTGTTGCGGTCAAA 138 H418R AGGCGTACGACCACGTCAGSNNAAGCGCAGACAGCGGAGT 139 W421R TCAAGAACGAGGCGTACGASNNCGTCAGGTGAAGCGCAGA 140 R433R AGGGGGGCACGATGCCAGCSNNACGGGCCGTGGCTGTCAA 141 I436R TGGCCCACGAGGGGGGCACSNNGCCAGCCCGACGGGCCGT 142 S451R CGGACGCGCCGGAGCACGTSNNGGGGATCGTGCTAGCGCT 143

For each library, after overnight incubation at 37° C., colonies were pooled by resuspension of the clones in PSS. From the pooled E. coli transformants, total plasmid was isolated (Qiagen) using standard techniques. Briefly 1 μl of the plasmid solution was added to 1 μl of pRep3Y destination vector (FIG. 1A) solution and added to the LR CLONASE™ II enzyme mix according to the protocol supplied by Invitrogen. A circular multimeric DNA was generated and transformed to E. coli Max EfficiencyDH5α as described by the supplier.

After overnight incubation at 37° C., 96 single colonies of each library were picked from 2×TY agar plates with 100 μg/ml ampicillin and grown for 24 hrs at 37° C. in a MTP containing 200 μL 2×TY medium with 100 μg/ml ampicillin. Cultures were used for sequence analyses (BaseClear B.V., Leiden, Netherlands).

The library numbers ranged from 1 to 65 with an addition referring to the codon of the TrGA sequence that is randomly mutated. After selection, each library included a maximum of 19 TrGA variants. These variants were individually transferred to Schizosaccharomyces pombe according to manufacturers instruction. (Zymo Research, Orange Calif. USA).

S. pombe transformations were plated on selective medium (EMM agar, Qbiogene, Irvine, USA Cat. No. 4110-232) and incubated at 28° C. for 4 days. Transformants were purified from the transformation plate by streaking the colonies on EMM agar.

Example 2 Description of the Growth Conditions and the Sample Pre-Treatment

S. pombe transformants were inoculated in 96 well microtiter plates (MTP) containing selective medium (2×EMM-C) [64.4 g/L EMM Broth (Qbiogene Cat. No: 4110-032), 0.62 g/L Complete Supplement Mixture (CSM-HIS-LEU-TRP, Qbiogene, Cat. No. 4530-122)] and incubated overnight at 28° C. From the overnight incubated microtiter plate, 200 μl of grown S. pombe culture was inoculated in 20 ml of 2×EMM-C liquid medium in a 100 ml shake flask and incubated for 4 days at 26° C. at 280 rpm in a Multitron shaking incubator (Infors AG, Bottmingen, Switzerland). From the grown culture, 2 ml of S. pombe culture was sampled and centrifuged for 5 min at 14,000 rpm (Sigma). The supernatant was transferred into a 10 kD Vivaspin 500 HT filter set-up (VivaScience AG, Hannover, Germany) and centrifuged for 25 min at 1000 g. The retentate was diluted back to the original start volume with 50 mM NaAc pH 4.5 supplemented with 0.015% Tween-80. This solution was used in the different assays.

Example 3 Construction of a Combinatorial Library of 4 Variants of TrGA

(A) Experiments were conducted for the construction of TrGA-variants carrying combinations of the following single site mutations: Q172F; Q208N; S211R and V314H. A review of the variants is shown below:

a) Q172F; Q208N

b) Q172F; S211R

c) Q172F; V314H

d) Q208N; S211R

e) Q208N V314H

f) S211R; V314H

g) Q172F; Q208N; S211R

h) Q172F; Q208N; V314H

i) Q172F; S211R; V314H

j) Q208N; S211R; V314H

k) Q172F; Q208N; S211R; V314H

The Quikchange® multi site-directed mutagenesis (QCMS) kit (Stratagene) was used to construct the library. The 5′ phosphorylated primers used to create the library are shown in Table 4. Optimal results in terms of incorporation of full length primers as well as significant reduction in primer-derived errors were obtained by the use of HPLC, PAGE or any other type of purified primers (Invitrogen).

TABLE 4 Primers used to construct selected combinatorial variants SEQ ID Primer Sequence NO: I43R GCATCTCCCAGCACACGAGACCCGGACTACTAT 144 I43Y GCATCTCCCAGCACATACGACCCGGACTACTAT 145 R76L GATGCGGGCCTGCAGCTGCGCATCGAGCAGTAC 146 N119T CTGAAGCCTTTCACCGGCACCTGGGGTCGACCGCAGCGGG 147 N119Y TGAAGCCTTTCACCGGCTACTGGGGTCGACCGCAGCGGG 148 N119D CTGAAGCCTTTCACCGGCGACTGGGGTCGACCGCAGCGGG 149 N146 AGTGGCTCATCAACAACGASTATCAGTCGACTGTGT 150 N146T AGTGGCTCATCAACAACACCTATCAGTCGACTGTGT 151 N146W GTGGCTCATCAACAATGGTATCAGTCGACTGTGT 152 N146L AGTGGCTCATCAACAACCTGTATCAGTCGACTGTGT 153 N146S AGTGGCTCATCAACAACTCCTATCAGTCGACTGTGT 154 Q172D/E TTGCCCAGTACTGGAACGASACCGGCTTTGACCTCTGG 155 Q172V/L TTGCCCAGTACTGGAACSTGACCGGCTTTGACCTCTGG 156 Q172T TTGCCCAGTACTGGAACACCACCGGCTTTGACCTCTGG 157 Q172R TTGCCCAGTACTGGAACCGAACCGGCTTTGACCTCTGG 158 Q172C TTGCCCAGTACTGGAACTGCACCGGCTTTGACCTCTGG 159

The template plasmid pDONR-TrGA (FIG. 2) was used to construct the combinatorial library using the QCMS kit of Stratagene. The library was constructed as described by the supplier with modified primer concentrations used in the reactions. Specifically, 4 μl pDONR-TrGA (25-50 ng) was mixed with 11 μl of sterile distilled water;1.5 μl of dNTP; 2.5 μl of 10×QCMS-buffer; 1 μl of enzyme blend and 1 μl of each mutant primer mix giving a total of 100 ng of primers in each reaction. The PCR conditions were 95° C. for 1 min, followed by 30 cycles of 95° for 1 min, 55° C. for 1 min, and 65° C. for 6 min, in an MJ Research thermocycler using thin-walled 0.2 ml PCR tubes. The reaction product was digested with 1 μl of Dpn1 from the QCMS kit by incubating at 37° C. overnight. A PCR purification kit (Qiagen) was used for sample purification and a second round of digestion was carried out with Dpn1 (Stratagene) for 1 hour at 37° C.

The reaction mixture was transformed to into E. coli Max efficiency DH5α (Invitrogen) and plated on selective agar (2×TY supplemented with 50 μg kanamycin/ml). After overnight incubation at 37° C., 96 single colonies were picked for sequence analysis (BaseClear B. V., Leiden, Netherlands). The combinatorial variants were cloned and expressed in a T. reesei host strain as described below and in WO 06/060062.

(B) A further six combinatorial libraries (Table 5) were synthetically made by Geneart (Regensburg, Germany) and were tested for thermal stability and in ethanol and sweetener application assays as described herein.

TABLE 5 Combinatorial libraries 1 D24E, L/I43F, R/D44H, N/F175H/V181K, L/V314D, H, K/T363R 2 D24L, W, Y/Q208F/I292F, L, N, V/G294A, I, Q/K297A/Y310F, Q, R 3 V181F, K, L/E243A, N, M, R, Y/I292F, L, N, V/K297A, D, H, M, N, Q/N317H/Y395Q, R 4 D24E, L, Y/V181F, K, L/Q208C/F/G294A, I, Q/T363R/N376Q/ N409K, W 5 D24E, L, Y/V181F, K, L/I292F, L, N, V/G294A, I, Q/E243A, M, N, R, Y/N409K, W 6 I43R/E243A, M, N, R, Y/I292F, L, N, V/G294A/K297A, D, H, M, N, Q, S, R, W, Y

Example 4 Variants with Improved Thermal Stability

The parent TrGA molecule under the conditions described had a residual activity between 15 and 44% (day-to-day variation). The performance index was calculated based on the TrGA thermostability of the same batch. The performance indices are the quotients PI=(Variant residual activity)/(TrGA residual activity). A performance index >1 indicates an improved stability. Variants that have a thermal stability performance index of more than 1.0 are shown in the following Table 6.

TABLE 6 Thermostability screening PI Thermal Stability, Variant 60° C., pH 4.5 D4P 1.05 I12E 1.09 I12Y 1.40 D24L 1.09 D24W 1.13 D24Y 1.03 I43R 1.28 D44N 1.06 D44Q 1.10 Q75N 1.09 R76K 1.03 N146D 1.20 N146E 1.24 N146L 1.10 N146V 1.28 N146W 1.17 Q148D 1.02 F175I 1.02 F175Y 1.06 E180A 1.41 E180D 1.02 E180G 1.13 E180I 1.41 E180L 1.38 E180M 1.10 E180N 1.27 E180Q 1.72 E180R 1.59 E180V 1.08 E180W 1.30 E180Y 1.31 V181I 1.20 V181K 1.12 V181L 1.06 V181Q 1.09 V181R 1.07 Q208F 1.06 Q208T 1.17 Q208V 1.15 S211D 1.10 S211E 1.02 S211I 1.31 S211M 1.90 E243A 1.19 E243H 1.04 E243M 1.53 E243N 1.35 E243P 1.06 E243R 1.21 E243S 1.09 E243T 1.48 E243Y 1.43 I292F 1.17 I292L 1.10 I292N 1.31 I292V 1.02 G294A 1.30 G294C 1.41 G294D 1.31 G294E 1.34 G294H 1.17 G294I 2.15 G294L 2.01 G294P 1.13 G294Q 1.91 G294R 1.34 G294V 1.10 K297A 1.47 K297C 1.10 K297D 1.50 K297F 1.24 K297G 1.25 K297H 1.63 K297L 1.62 K297M 1.62 K297N 1.87 K297Q 1.82 K297R 1.29 K297S 1.22 K297T 1.33 K297V 1.10 K297W 1.85 K297Y 1.71 R309S 1.08 Y310C 1.06 Y310F 1.35 Y310L 1.11 Y310Q 1.40 Y310R 1.61 Y315E 1.24 Y315H 1.48 Y315L 1.35 Y315N 1.17 Y315P 1.19 Y315Q 1.43 Y315T 1.34 Y316D 1.06 N317H 1.26 N317Q 1.09 K340H 1.02 K340R 1.09 K341I 1.10 K341V 1.07 T350G 1.08 T350P 1.08 T350S 1.33 Q356L 1.20 T363N 1.30 S368C 1.12 S368E 1.07 S368F 1.16 S368H 1.26 S368I 1.15 S368L 1.33 S368N 1.21 S368P 1.05 S368Q 1.10 S368R 1.14 S368T 1.15 S368W 1.16 S369A 1.22 S369D 1.05 S369F 1.20 S369G 1.05 S369K 1.12 S369L 1.49 S369M 1.36 S369N 1.25 S369P 1.16 S369R 1.12 S369T 1.25 N376F 1.12 N376G 1.26 N376H 1.21 N376K 1.40 N376L 1.34 N376P 1.05 N376Q 1.11 N376S 1.09 N376V 1.19 N376W 1.12 N376Y 1.05 Y395A 1.05 Y395C 1.02 Y395F 1.03 Y395G 1.13 Y395H 1.10 Y395L 1.50 Y395N 1.20 Y395Q 1.18 Y395R 1.14 Y395S 1.13 Y395T 1.04 A398C 1.10 A398D 1.39 A398F 1.05 A398G 1.17 A398H 1.33 A398I 1.41 A398K 1.47 A398L 1.44 A398N 1.23 A398P 1.38 A398Q 1.43 A398R 1.59 A398S 1.14 A398T 1.25 A398V 1.29 A398W 1.45 A398Y 1.38 S401A 1.12 S401E 1.08 S401I 1.05 S401N 1.12 S401P 1.15 S401R 1.25 S401T 1.26 S401V 1.18 R408A 1.14 R408E 1.41 R408G 1.15 R408H 1.12 R408I 1.19 R408K 1.80 R408L 1.55 R408N 1.09 R408Q 1.23 R408S 1.17 N409A 1.25 N409C 1.18 N409D 1.21 N409E 1.27 N409F 1.32 N409G 1.14 N409H 1.29 N409I 1.56 N409K 1.44 N409L 1.57 N409M 1.17 N409Q 1.03 N409R 1.29 N409V 1.11 N409W 1.58 T412L 1.10 S451R 1.01

Example 5 High Performing Variants from an Ethanol Screening Assay

Variants were tested in an ethanol screening assay using the assays described above. Table 7 shows the results of the screening assay for variants with a Performance Index (PI)>1.0 compared to the parent TrGA PI. The PI is a measure of specific activity (activity/mg enzyme). The PI of the specific activity is the quotient “Variant-specific activity/WT-specific activity.” The PI of the specific activity is 1.0 and a variant with a PI>1.0 has a specific activity that is greater than the parent TrGA. The specific activity is the activity measured by the ethanol screening assay divided by the results obtained in the Bradford assay described above.

TABLE 7 Ethanol Screening P.I. Variant 32° C., pH 4 D4A 1.07 D4C 1.08 D4E 1.23 D4L 1.34 D4R 1.18 D4S 1.17 F5C 1.35 I12L 1.19 I12R 1.13 D24E 1.60 D24L 1.19 D24W 1.03 D24Y 1.14 F29A 1.05 F29C 1.12 F29D 1.20 F29E 1.05 F29I 1.26 F29L 1.42 F29Q 1.01 F29S 1.07 F29V 1.06 I43D 1.14 I43F 1.33 I43R 1.21 I43Y 1.05 D44E 1.37 D44F 1.07 D44G 1.03 D44H 1.11 D44K 1.09 D44N 1.07 D44S 1.08 D44Y 1.07 Y70E 1.02 Y70G 1.06 Y70K 1.01 Y70M 1.36 Y70P 1.15 Y70R 1.40 Y70S 1.04 Q75A 1.10 Q75K 1.77 R76K 1.06 R76L 1.11 R76M 1.13 R76N 1.02 R76T 1.04 R76V 1.05 R76W 1.02 R76Y 1.05 D100A 1.08 D100I 1.14 D100L 1.03 D100M 1.12 D100N 1.06 D100P 1.09 D100Q 1.14 D100T 1.06 D100W 1.19 D100Y 1.05 N119E 1.02 N119F 1.03 N119Y 1.28 N146C 1.11 N146E 1.02 N146G 1.11 N146H 1.07 N146K 1.06 Q148H 1.10 Q148N 1.05 Q148V 1.18 Q148W 1.05 Q148Y 1.16 Y169D 1.18 Y169F 1.10 Y169H 1.05 Y169R 1.02 Q172E 1.08 Q172G 1.05 Q172R 1.22 Q172S 1.03 F175C 1.18 F175H 1.26 F175T 1.28 F175W 1.16 F175Y 1.05 V181F 1.28 V181K 1.35 V181L 1.37 V181R 1.01 Q208A 1.22 Q208C 1.17 Q208F 1.12 Q208H 1.02 Q208I 1.02 Q208L 1.32 S211A 1.30 S211E 1.30 S211G 1.05 S211L 1.04 S211M 1.05 S211R 1.34 S211W 1.07 S211Y 1.08 E243A 1.23 E243L 1.20 E243M 1.26 E243N 1.28 E243R 1.31 E243Y 1.25 I292F 1.23 I292H 1.04 I292L 1.21 I292N 1.27 I292R 1.02 I292V 1.24 G294A 1.91 G294I 1.92 G294Q 1.99 K297A 1.82 K297D 1.87 K297H 1.79 K297M 1.91 K297N 1.87 K297Q 1.85 K297R 1.71 K297S 1.72 K297W 1.70 K297Y 1.80 R309L 1.43 Y310F 1.05 Y310Q 1.16 Y310R 1.24 V314D 1.10 V314F 1.04 V314H 1.31 V314K 1.08 V314L 1.02 V314N 1.05 V314R 1.06 Y316R 1.42 Y316W 1.05 N317H 1.14 N317K 1.02 N317S 1.03 N317T 1.23 K340D 1.33 K340T 1.16 K341D 1.04 K341F 1.64 K341G 1.64 K341L 1.04 K341N 1.05 K341S 1.06 T350A 1.56 T350D 1.04 T350E 1.59 T350H 1.03 T350N 1.06 T350Q 1.05 T350R 1.02 Q356D 1.69 Q356E 1.07 Q356H 1.03 Q356K 1.03 T363A 1.04 T363C 1.54 T363G 1.02 T363H 1.09 T363N 1.02 T363R 1.61 T363V 1.05 T363W 1.08 S368D 1.11 S368F 1.08 S368H 1.04 S368L 1.07 S368M 1.03 S368N 1.02 S368W 1.24 S369F 1.68 S369M 1.04 S369T 1.05 N376G 1.05 N376H 1.10 N376Q 1.16 N376S 1.06 N376T 1.12 N376V 1.64 Y395A 1.02 Y395C 1.05 Y395G 1.02 Y395Q 1.63 Y395R 1.20 Y395S 1.09 A398D 1.05 A398P 1.03 S401A 1.04 S401D 1.01 S401G 1.04 S401N 1.02 S401V 1.06 N409K 1.30 N409L 1.04 N409W 1.31 T412A 1.04 T412G 1.06 T412K 1.05 R433Q 1.16 I436A 1.32 I436H 1.02 I436T 1.03 S451A 1.03 S451M 1.28 S451T 1.09 S451Y 1.03

Example 6 High Performing Variants from a Sweetener Screening Assay

Variants were tested in a sweetener screening assay as described hereinabove. Table 8 shows the results of the screening assay wherein variants with a Performance Index (PI)>1.00 compared to the parent TrGA PI are shown. The PI is a measure of specific activity (activity/mg enzyme). The PI of the specific activity is the quotient “Variant-specific activity/WT-specific activity.” The PI of the specific activity is 1.0 and a variant with a PI>1.0 has a specific activity that is greater than the parent TrGA.

TABLE 8 Sweetener screening P.I. 60° C., Variant pH 4.5 D4E 1.09 D4L 1.03 D4S 1.07 D24E 1.45 D24L 1.31 D24Y 1.01 I43D 1.05 I43F 1.31 I43R 1.28 D44E 1.09 D44H 1.12 D44N 1.31 Y70F 1.26 Y70L 1.22 Q75K 1.12 R76K 1.11 R76M 1.03 R76P 1.13 R76T 1.11 R76W 1.07 D100Y 1.04 N119E 1.12 N119Y 1.01 N146D 1.05 N146E 1.11 Q148D 1.02 Q148W 1.05 Q172H 1.05 Q172Y 1.03 F175H 1.42 F175Y 1.11 V181A 1.10 V181F 1.01 V181K 1.43 V181L 1.42 Q208C 1.08 Q208F 1.20 Q208H 1.11 Q208L 1.03 Q208N 1.03 Q208S 1.06 Q208T 1.12 S211H 1.16 S211M 1.16 S211R 1.34 S211W 1.09 E243A 1.06 E243F 1.01 E243N 1.05 E243R 1.14 E243S 1.09 E243Y 1.07 R245A 1.01 I292N 1.04 I292V 1.12 G294A 1.06 G294Q 1.02 K297A 1.04 K297D 1.10 K297Q 1.07 V314D 1.22 V314H 1.85 V314K 1.34 V314L 1.13 V314N 1.08 V314R 1.20 V314Y 1.05 Y316R 1.20 N317H 1.25 N317K 1.03 K340D 1.21 K340E 1.05 K341D 1.08 K341G 1.22 K341L 1.08 K341N 1.08 K341S 1.12 T350H 1.03 T350L 1.04 Q356D 1.31 Q356E 1.04 Q356K 1.05 T363C 1.08 T363G 1.04 T363N 1.02 T363R 1.50 S368G 1.04 S368M 1.03 N376G 1.02 N376Q 1.07 Y395Q 1.01 A398H 1.03 A398S 1.03 S401A 1.01 N409K 1.19 N409T 1.02 N409W 1.01 T412G 1.06 T412S 1.03 I436D 1.02 I436Q 1.06 I436T 1.16 S451D 1.01 S451E 1.09 S451F 1.02 S451H 1.11 S451T 1.11

Example 7 Construction of Vectors and Transformation into Trichoderma reesei Host Cells A. Construction of Expression Vectors Comprising a Polynucleotide Encoding a Variant GA.

The TrGA expression cassette comprising the DNA sequence SEQ ID NO: 4 was cloned into pDONR™ 201, a Gateway® Entry vector (Invitrogen, Carlsbad, Calif.). The TrGA expression cassette was cloned into the Gateway compatible destination vector pTrex3g-DEST (FIG. 5), which is also described in WO 06/060062, by the Gateway® LR recombination reaction. The pTrex3g-TrGA expression vector (FIG. 5) enabled the expression of the TrGA protein (SEQ ID NO: 2) in a Trichoderma reesei host. Vectors were constructed, which included modified TrGA cDNA coding at least the following variants (1) V314H; (2) S211R; (3) Q208N and (4) Q172F.

B. Transformation.

An expression vector containing a variant GA was transformed into a T. reesei host strain derived from RL-P37 (IA52) and having various gene deletions (Δ cbh1, Δcbh2, Δegl1, Δegl2) using particle bombardment by the PDS-1000/Helium System (BioRad Cat. No. 165-02257). The protocol is outlined below, and reference is also made to examples 6 and 11 of WO 05/001036.

A suspension of spores (approximately 5×10⁸ spores/ml) from the strain of T. reesei was prepared. One hundred to two hundred microliters of spore suspension were spread onto the center of plates of Minimal Medium (MM) acetamide medium. The MM acetamide medium had the following composition: 0.6 g/L acetamide; 1.68 g/L CsCl; 20 g/L glucose; 20 g/L KH₂PO₄; 0.6 g/L CaCl₂.2H₂O; 1 ml/L 1000× trace elements solution: 20 g/L agar; and pH 5.5; 1 ml/L 400× trace element salt solution; citric acid 175 g/L, FeSO₄.7H₂O 200 g/L, ZnSO₄.7H₂O 16 g/L, CuSO₄.5H₂O 3.2 g/L, MnSO₄H₂O 1.4 g/L, H₃BO₃ 0.8 g/L. The spore suspension was allowed to dry on the surface of the MM acetamide medium.

Transformation followed the manufacturers instruction. Briefly, 60 mg of M10 tungsten particles were placed in a microcentrifuge tube. 1 mL of ethanol was added and allowed to stand for 15 minutes. The particles were centrifuged at 15,000 rpm for 15 seconds. The ethanol was removed and the particles were washed three times with sterile dH₂O before 1 mL of 50% (v/v) sterile glycerol was added. 25 μl of tungsten particle suspension was placed into a microcentrifuge tube. While continuously vortexing, the following were added: 0.5-5 μl (100-200 ng/μl) of plasmid DNA, 25 μl of 2.5 M CaCl₂ and 10 μl of 0.1 M spermidine. The particles were centrifuged for 3 seconds. The supernatant was removed and the particles were washed with 200 μl of 70% (v/v) ethanol and centrifuged for 3 seconds. The supernatant was removed and 24 μl 100% ethanol was added, mixed by pipetting, and the tube was placed in an ultrasonic bath, 8 μl aliquots of particles were removed and placed onto the center of macrocarrier disks that were held in a desiccator. Once the tungsten/DNA suspension had dried the microcarrier disk was placed in the bombardment chamber along with the plate of MM acetamide with spores and the bombardment process was performed according to the manufacturers instructions. After bombardment of the plated spores with the tungsten/DNA particles, the plates were incubated at 28° C. Transformed colonies were picked to fresh plates of MM acetamide after 4 days (Pentilla et al. (1987) Gene 61: 155-164).

C. Demonstration of GA Activity from the Expressed Variant TrGA in Transformed Cells.

After 5 days growth on MM acetamide plates transformants displaying stable morphology were inoculated into 250 ml shake flasks containing 30 ml of Proflo medium. Proflo medium contained: 30 g/L α-lactose; 6.5 g/L (NH₄)₂SO₄; 2 g/L KH₂PO₄; 0.3 g/L MgSO₄.7H₂O; 0.2 g/L CaCl₂.2H₂O; 1 ml/L 400× trace element salt solution: citric acid 175 g/L, FeSO₄.7H₂O 200 g/L, ZnSO₄.7H₂O 16 g/L, CuSO₄.5H₂O 3.2 g/L, MnSO₄.H₂O 1.4 g/L, H₃BO₃ 0.8 g/L; 2 ml/L 10% Tween 80; 22.5 g/L ProFlo cottonseed flour (Traders protein, Memphis, Tenn.); 0.72 g/L CaCO₃. After two days growth at 28° C. and 140 rpm, 10% of the Proflo culture was transferred to a 250 ml shake flask containing 30 ml of Lactose Defined Media. The composition of the Lactose defined Media was as follows 5 g/L (NH₄)₂SO₄; 33 g/L1,4-piperazinebis(propanesulfonic acid) buffer; 9 g/L casamino acids; 4.5 g/L KH₂PO₄; 1.0 g/L MgSO₄.7H₂O; 5 ml/L Mazu DF60-P antifoam (Mazur Chemicals, Ill.); 1000× trace element solution; pH 5.5; 40 ml/L of 40% (w/v) lactose solution was added to the medium after sterilization. The Lactose Defined medium shake flasks were incubated at 28° C., 140 rpm for 4-5 days.

Samples of the culture supernatant were mixed with an appropriate volume of 2× sample loading buffer with reducing agent. Mycelium was removed by centrifugation and the supernatant was analyzed for total protein (BCA Protein Assay Kit, Pierce Cat. No. 23225).

GA activity was measured using the p-nitrophenyl-alpha-D-glucopyranoside (pNPG) assay with pNPG as a substrate (Sigma N-1377). In this assay the ability of glucoamylase to catalyze the hydrolysis of p-nitrophenyl-alpha-D-glucopyranoside (pNPG) to glucose and p-nitrophenol is measured. At an alkaline pH, the nitrophenol forms a yellow color that is proportional to glucoamylase activity and is monitored at 405 nm and compared against an enzyme standard measured as a GAU (Elder, M. T. and Montgomery R. S., Glucoamylase activity in industrial enzyme preparations using colorimetric enzymatic method, Journal of AOAC International, vol. 78(2), 1995). One GAU is defined as the amount of enzyme that will produce 1 gm of reducing sugar calculated as glucose per hour from a soluble starch substrate (4% ds) at pH 4.2 and 60° C.

The protein profile was determined by PAGE electrophoresis on NuPAGE® Novex 10% Bis-Tris Gel with MES SDS Running Buffer (Invitrogen, Carlsbad, Calif., USA).

Example 8 Small Scale Applications Testing of Selected Variants on Soluble Starch

Trichoderma reesei host strains expressing the single variants a) V314H, b) S211R, c) Q172F and d) Q208N were grown in fed-batch 14L fermentors at 34° C., pH 3.5 in nutrient media including glucose (Cerelose DE99), KH₂PO₄, MgSO₄.7H₂O, (NH₄)₂SO₄, CaCl₂.2H₂O, trace elements and Mazu anti-foam (DF6000K). Upon glucose depletion growth temperature and pH were shifted to 28° C. and 4.0, respectively. Cell material was removed by filtration and culture supernatants were collected and concentrated to contain greater than 90% glucoamylase as total protein.

Various kinetic properties were determined for glucose production on soluble potato starch at pH 4.3 at 32° C. and at 60° C. and compared to the wild-type TrGA. Each of the four variants demonstrated increased V_(max) (μM glucose/sec) values as compared to the wild type (TrGA) indicating elevated catalytic rates (k_(cat) (sec⁻¹)). FIG. 6 illustrates the V_(max) of two replicates for each temperature tested.

Example 9 Method to Determine the Performance on EtOH Production of Variants

Validation of the screening was performed on the variants that were identified as having a higher performance index as compared to the parent TrGA (see Table 7/8) using a novel small scale Ethanol application test. Twenty-four variants derived from site evaluation and combinatorial (Table 9) libraries were selected and transformed directly into T. reesei for expression and testing on larger scale. The variants were tested for thermal unfolding using Differential Scanning calorimetry (DSC analysis described herein below) and performance using a novel secondary small-scale ethanol application assay. The method consisted of two steps: 1) injection of variants onto an anion exchange column to accurately determine the protein concentration; and 2) titration of variants with three different TrGA concentrations (0.3-0.15-0.075 g/28 g ds) in order to calculate their performance on ethanol production relative to the wild type molecule.

TABLE 9 List of combinatorial variants variant mutation LR8 Q172F/Q208N LR6 Q172F/Q208N/V314H LR12 Q172F/S211R SW3-1 D24E/I43R/D44N/F175H/V181L/V314H/T353R SW3-2 D24L/I43F/D44N/F175H/V181L/V314H/T353R ET4-1 D24L/Q208Q/I292V/G294A/K297A/Y310R ET4-2 D24W/Q208F/I292V/G294Q/K297A/Y310R ET5-1 V181L/E243A/I292N/K297N/N317N/Y395Q ET5-2 V181L/E243R/I292F/K297A/N317N/Y395Q ET7-1 D24Y/V181L/Q208C/G294A/T353R/N375N/N409W ET7-2 D24L/V181L/Q208C/G294A/T353R/N375Q/N409W ET8-1 D24E/V181K/E243Y/I292V/G294Q/N409K ET8-2 D24E/V181F/E243R/I292N/G294I/N409W ET9-1 I043R/E243R/I292F/G294A/K297A ET9-2 I043R/E243R/I292L/G294A/K297M

Protein Purification and Determination

A crude enzyme preparation was purified using an AKTA explorer 100 FPLC system (Amersham Biosciences, Piscataway, N.J.). β-Cyclodextrin was (Sigma-Aldrich, Zwijndrecht, The Netherlands; 85.608-8) coupled to epoxy-activated Sepharose beads (GE Healthcare, Diegem, Belgium; 17-0480-01). The column was used to capture glucoamylases from the enzyme preparation. Enzyme was eluted from the beads using 25 mM Tris buffer pH 7.5 or 50 mM sodium acetate buffer pH 4.3 containing 10 mM α-cyclodextrin (Sigma, 28705). Purified samples were analyzed by SDS-PAGE. To accurately determine the protein concentration of the variants an FPLC based protein determination method was developed. The protein concentration of the purified marker TrGA molecule was first determined using a standard Bradford protocol (Bio-Rad cat#500-0205). Subsequently, purified samples were injected onto a ResourceQ_(—)1 ml column (GE Healthcare) and enzyme was eluted with 25 mM Tris pH buffer containing 500 mM NaCl. Peak area was determined and the protein concentration was calculated relative to the peak area of the TrGA standard with known concentration.

Small Scale EtOH Application

Table 10 summarizes the production of ethanol and sugars (DP1, DP2, DP>3) by different combinatorial variants. A sample of corn mash liquefact obtained and diluted to 26% DS using thin stillage. The pH of the slurry was adjusted to pH 4.3 using 4N sulphuric acid. A 100 g aliquot of mash was placed into a 32° C. water bath and allowed to equilibrate. After 100 μl 400 ppm urea addition, 1 ml purified variant TrGA enzyme sample (150 μg/ml) or purified TrGA (300, 150, 75 μg/ml) was added to each corn mash sample. Finally, 333 μl of 30 minutes hydrated 15 g in 45 ml DI water solution of Red Star Red yeast (Lesaffre yeast Corp. Milwaukee, Wis.) was added to each sample. Samples were taken at 5, 21, 28, 48 and 52 hours and analyzed by HPLC using an Aminex HPX-87H column 9 (Bio-Rad).

Ethanol and Carbohydrate Determinations

A 2 ml eppendorf centrifuge tube was filled with fermentor beer and cooled on ice for 10 minutes. The sample was centrifuged for 3 minutes at 14.000×g and 500 μl of the supernatant was transferred to a test tube containing 50 μl of kill solution (1.1 N sulfuric acid) and allowed to stand for 5 minutes. 5.0 ml of water was added to the test tube and then filtered into a 0.22 μm filter plate (multiscreen, Millipore, Amsterdam, the Netherlands) and run on HPLC. Column Temperature: 60° C.; mobile phase: 0.01 N sulfuric acid; flow rate 0.6 ml/min; detector: RI; injection volume: 20 μl. The column separates molecules based on charge and molecular weight; DP1 (monosaccharides); DP2 (disaccharides); DP3 (trisaccharides); DP>3 (oligosaccharides sugars having a degree of polymerization greater than 3); succinic acid; lactic acid; glycerol; methanol; ethanol.

DSC Analysis

The melting temperature of purified enzyme samples (0.2-0.4 mg/ml) was determined using Differential Scanning calorimetry (DSC).

TABLE 10 Production of ethanol and saccharides DP > 3 DP2 DP1 ethanol hours (m/v)% (m/v)% (m/v)% (v/v)% TrGA (0.3 mg) 5.5 3.46 2.70 0.91 1.02 21.5 3.40 0.50 0.06 6.80 28.5 1.68 1.46 0.07 8.13 46 0.04 0.71 0.06 10.21 52.5 0.04 0.45 0.03 10.96 TrGA (0.150 mg) 5.5 3.40 2.43 0.15 1.00 21.5 3.78 0.21 0.03 4.23 28.5 3.86 0.20 0.03 5.07 46 2.73 0.52 0.06 7.86 52.5 1.70 0.87 0.04 7.92 TrGA (0.075 mg) 5.5 3.43 2.16 −0.01 0.94 21.5 3.54 0.20 0.03 3.10 28.5 3.43 0.18 0.03 3.14 46 3.93 0.18 0.05 4.65 52.5 4.01 0.18 0.03 4.79 ET7-1 5.5 3.45 2.53 0.21 1.00 21.5 3.94 0.22 0.04 4.77 28.5 3.89 0.23 0.04 5.58 46 1.58 1.22 0.06 8.64 52.5 0.62 1.50 0.04 9.14 LR8 5.5 3.43 2.50 0.17 1.00 21.5 3.96 0.22 0.04 4.79 28.5 3.86 0.21 0.04 6.21 46 1.27 1.11 0.07 9.17 52.5 0.45 1.24 0.04 8.73 LR12 5.5 3.47 2.51 0.16 1.05 21.5 3.86 0.22 0.04 4.44 28.5 3.94 0.22 0.04 5.30 46 2.09 1.08 0.07 8.56 52.5 0.99 1.52 0.04 9.16 LR6 5.5 3.37 2.44 0.18 0.96 21.5 3.88 0.21 0.04 4.44 28.5 3.90 0.20 0.04 5.10 46 2.44 0.64 0.08 8.59 52.5 1.27 1.01 0.04 8.97 ET8-1 5.5 3.46 2.53 0.22 0.99 21.5 3.99 0.21 0.04 4.86 28.5 3.90 0.21 0.04 5.76 46 1.29 1.11 0.08 8.94 52.5 0.47 1.25 0.04 9.56 ET7-2 5.5 3.57 2.46 0.17 1.02 21.5 4.26 0.21 0.03 4.21 28.5 4.37 0.20 0.04 5.14 46 3.87 0.27 0.05 7.21 52.5 3.27 0.33 0.03 8.07

Table 11 represents the final ethanol yields and the performance of the variants at 0.15 mg dosage. The performance was calculated by interpolation of the 0.3 mg and 0.15 mg values of the TrGA by the values of the variants.

TABLE 11 Ethanol Yields EtOH performance variant %(v/v) relative to TrGA TrGA 0.3 mg 10.21 TrGA 0.15 mg 7.86 1.00 TrGA 0.075 mg 4.65 ET7-1 8.64 1.33 LR8 9.17 1.56 LR12 8.56 1.30 LR6 8.59 1.31 ET8-1 8.94 1.46 ET7-2 7.21 0.72

All combinatorial variants except ET7-2 performed better than TrGA wild type. LR8 performed the best with a 1.56 improved performance.

Table 12 gives an overview of all single site and combinatorial variants tested using the small-scale ethanol application assay. Variants that are shaded in Table 12 had a better performance than TrGA and also had a higher thermal unfolding temperature (dT_(m)).

TABLE 12 Performance and thermal unfolding of variants relative to TrGA

The results showed that Chromatography (FPLC) was a useful tool to accurately determine the protein concentration. The results also showed that titration of variants with three TrGA concentrations was a valuable method to determine the performance of variants on small scale. Seven variants performed better than TrGA wild type (see Table 12) and also had a higher thermal unfolding temperature and the variants that did not perform as well as TrGA also had a lower T_(m).

Example 10 Specific Activity Determination of a Selected Set of Combinatorial and Single Site Variants and Substrate Specificity of LR8

The specific activity of a set of the combinatorial variants and several single site variants that were used to construct combinatorial variants was analyzed (Table 13). LR8 (PI 1.56 determined with small scale application assay) was further studied with respect to substrate specificity. This was done by setting up an MTP assay to determine the glucose production rates of GA variants and to determine substrate specificity of the LR8 variant. The MTP assay was found to discriminate between variants and all variants except ET7-1 showed higher rates than the wild-type (wt) Trichoderma reesei glucoamylase. Further, several variants (LR8/ET8/Q172F) performed 20-30% better than TrGA. LR8 performed better on soluble corn starch and two different samples of corn mash liquefact compared to wild-type.

Substrates used in the following experiments were soluble corn starch stock solution prepared as follows: 8 g soluble corn starch (Sigma # S4180) was dissolved in 100 ml milliQ water and heated in a microwave for 1 minute. The dispersion was boiled for 5 minutes and after cooling the volume was adjusted to 100 ml. 4% soluble corn starch was prepared by diluting the stock solution 1:1 with 100 mM NaAc buffer pH 4. In one experiment, a corn liquefact substrate (NE) was prepared using a moisture analyzer to measure % ds, then substrate was diluted 7.5× with 50 mM NaAc to finally obtain 4% ds. The substrate was centrifuged for 5′ at 2000×g and the supernatant was filtered with a 0.22 μm filter. In another experiment, a corn liquefact substrate (BSE) was prepared in the same way, except that the substrate was diluted 10× before centrifugation.

The enzyme was diluted using the Stock solution of 150 μg enzyme/ml (3 μg/180 μl reaction mixture). Solutions were further diluted with 50 mM NaAc pH 4.0 as follows: 300 ng (10×), 200 ng, 150 ng, 100 ng, 75 ng, 50 ng, 25 ng, 10 ng/180 μl reaction mixture

The assay was performed as follows: 40 μl 50 mM NaAc pH 4.0, 120 μl 4% soluble corn starch, and 20 μl enzyme were added to each well. Samples were incubated for 2 hr at 32° C. 900 rpm and terminated on ice after addition of 90 μl 800 mM glycine-NaOH buffer pH 10 for 5 mM The plate was centrifuged for 5 mM at 2000 rpm at 15° C. To a fresh plate, 85 μl milliQ water and 100 μl hexokinase cocktail (Il test glucose (HK) kit, Instrumental Laboratory #182507-40) and 20 μl supernatant were added. For a glucose (0-1 mg/ml) calibration line 20 μl glucose stock was added instead. Plates were incubated for 10 min at room temperature in the dark followed by absorption measurement at 340 nm using the Spectramax.

TABLE 13 performance relative to wt graph1 300 200 150 100 75 50 25 10 ng GA TrGA 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 ET7-1 0.94 0.98 0.91 0.92 0.63 0.38 3.50 0.53 LR8 0.93 1.00 1.22 0.91 0.64 0.06 −0.89 −3.99 LR12 0.94 0.99 1.17 0.83 0.66 −0.15 −0.99 0.62 LR6 0.94 1.01 1.16 0.99 0.55 0.17 −1.67 −4.36 ET8-1 0.87 0.95 1.29 1.02 0.62 −0.05 −1.64 −3.42 ET7-2 0.94 1.00 1.24 0.93 0.50 0.22 −0.62 −1.40 graph2 V314H 0.95 0.97 1.24 0.91 0.78 0.54 0.74 1.89 G294Q 0.98 0.99 1.03 1.21 1.10 0.19 −0.34 −1.12 S211R 0.97 0.99 1.21 1.05 0.94 0.27 −1.32 0.53 Q208N 0.97 1.01 1.13 0.95 0.90 −0.05 −1.01 −2.81 Q172F 0.99 1.04 1.31 1.23 1.32 0.38 −1.59 −2.20 G294I 0.91 0.96 1.07 1.25 0.80 0.09 −1.20 −3.66 P94N 0.98 1.00 1.24 1.09 1.05 0.29 6.29 −3.80 TrGA 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00

The results of the assay to determine the glucose production rates of by GA variants are shown in FIGS. 7 and 8. In these figures, the relative performance to TrGA was calculated per amount of enzyme added. Conclusions were drawn from the linear region of the graph at 150 ng of enzyme. The results in FIGS. 7, 8 and Table 13 showed that LR8, ET8, ET7-2, S211R, Q172F and P94N performed better than wild-type over the linear range.

To determine the substrate specificity of LR8, the performance of LR8 and TrGA wild-type was tested on substrates (soluble corn starch, and the two corn mash substrates produced in Example 10) used in screening and application. When analyzed by HPLC, the substrates showed a difference in degree of polymerization (DP) pattern (see FIGS. 9-11). In NE and BSE DP1->=DP4 is present while soluble corn starch consist of at least four or more glucose molecules. On all substrates LR8 performed better than wild-type (see FIGS. 9, 10 and 11).

Example 11 Screening and Characterization of Variants Expressed in Trichoderma Reesei Using TrGA Site Evaluation Libraries (SELs) in the pTTT Vector

Additional TrGA variants, particularly variants with substitutions within the SBD, were created and screened directly in Trichoderma reesei. Similar to Example 1, another ten TrGA site saturated mutagenesis (SSM) libraries were constructed using the pDONR-TrGA entry vector as a template and primers listed in Table 14. The sites include: N61, G73, L417, T430, A431, E503, Q511, A535, A539, and N563. Among these sites, E503, Q511, A535, A539, and N563 are located within the starch binding domain of the TrGA. Subsequently, the recombination was performed with the pTTT-Dest vector (FIG. 14) using the LR CLONASE™ II enzyme mix according to the protocol supplied by Invitrogen. The recombination products were transformed into E. coli Max efficiency DH5α (Invitrogen) and plated on 2×TY medium [Bacto Tryptone (Difco) 16 g/L, Bacto Yeast Extract (Difco) 10 g/L, NaCL 5 g/L] supplemented with 100 μg/mL ampicillin. After overnight incubation at 37° C., 96 single colonies of each library were picked from 2×TY agar plates with 100 μg/ml ampicillin and grown for 24 hrs at 37° C. in a MTP containing 200 μL 2×TY medium with 100 μg/ml ampicillin. Cultures were used for sequence analyses (ABI3100 sequence analyzer, Applied Biosystems). Each library contained from 15 to 19 different TrGA variants in the final expression vector. These variants were individually transformed into T. reesei.

TABLE 14 Primers used to generate additional TrGA SSM libraries AA- posi- F/ tion R DNA sequence 5′ to 3′  61 F AGATAGCGCTCTTGTCTTCAAGNNSCTCATCGACCGC  61 R CTTGAAGACAAGAGCGCTATC  73 F CTTCACCGAAACGTACGATGCGNNSCTGCAGCGCCGC  73 R CGCATCGTACGTTTCGGTGAA 417 F CAGCGGCACTCCGCTGTCTGCGNNSCACCTGACGTGGT 417 R CGCAGACAGCGGAGTGCCGCT 430 F GTACGCCTCGTTCTTGACAGCCNNSGCCCGTCGGGCT 430 R GGCTGTCAAGAACGAGGCGTA 431 F CGCCTCGTTCTTGACAGCCACGNNSCGTCGGGCTGGC 431 R CGTGGCTGTCAAGAACGAGGC 503 F CTCCGTGGCCGTCACCTTCCACNNSCTCGTGTCGACACA 503 R GTGGAAGGTGACGGCCACGGA 511 F GCTCGTGTCGACACAGTTTGGCNNSACGGTCAAGGTG 511 R GCCAAACTGTGTCGACACGAG 535 F GAGCGCCGCCGTGGCTCTGGACNNSGTCAACTATGCCGATA 535 R GTCCAGAGCCACGGCGGCGCTCGTGCT 539 F GGCTCTGGACGCCGTCAACTATNNSGATAACCACCCCCTGT 539 R ATAGTTGACGGCGTCCAGAGCCACGGC 563 F CGTCGTGGAGTACAAGTACATCNNSGTGGGCCAAGATGGCTCC 563 R GATGTACTTGTACTCCACGACGTCTCC

The SELs were transformed into T. reesei using the PEG-protoplast method (see, e.g., Pentillä et al. (1987) Gene 61: 155-164). The T. reesei host is a strain derived from RL-P37 (IA52) and having four gene deletions (Δ cbh1, Δcbh2, Δegl1, Δegl2; i.e., “quad-deleted;” see U.S. Pat. No. 5,847,276, WO 92/06184, and WO 05/001036). Transformation mixtures containing up to 600 ng of DNA and 1-5×10⁵ protoplasts in a total volume of 25 μl were treated with 200 ml of 25% PEG solution, diluted with 2 volumes of 1.2 M sorbitol solution, mixed with 3% selective top agarose MM with acetamide and poured onto 2% selective agarose with acetamide either in 24 well microtiter plates. The plates were incubated at 28° C. for 5 to 8 days. Spores from the total population of transformants regenerated on each individual well were harvested from the plates using a solution of 0.85% NaCl, 0.015% Tween 80. Spore suspensions were used to inoculate fermentations in 96 well MTPs. In the case of 24 well MTPs, an additional plating step on a fresh 24 well MTP with selective acetamide MM was introduced in order to enrich the spore number.

The transformants were fermented in MTPs and the culture supernatants containing the expressed protein variants were used for assays. In brief, MTPs containing 200 μl of LD-GSM medium were inoculated in quadruplicate with spore suspensions of T. reesei transformants expressing TrGA variants (more than 10⁴ spores per well). The plates were incubated at 28° C. with 230 rpm shaking and 80% humidity for 6 days. Culture supernatants were harvested by vacuum filtration. The supernatants were used in different assay for screening of variants with improved properties.

Variants exhibiting a performance index of more than 1.0 for thermal stability, specific activity, and both thermal stability and specific activity are shown in Tables 15-17.

TABLE 15 Thermal stability screening of additional TrGA variants PI of thermal Variants stability N061V 1.06 G073F 1.44 G073M 1.01 G073N 1.10 G073W 1.36 L417I 1.04 L417K 1.20 L417M 1.05 L417Q 1.04 L417R 1.20 L417V 1.07 L417Y 1.01 T430A 1.05 T430E 1.02 T430F 1.06 T430H 1.10 T430I 1.04 T430K 1.08 T430M 1.17 T430N 1.13 T430Q 1.05 T430R 1.13 T430S 1.17 T430V 1.05 A431I 1.03 A431N 1.03 A431P 1.08 A431R 1.08 A431V 1.03 E503A 1.43 E503C 1.39 E503S 1.02 E503T 1.04 E503V 1.68 Q511A 1.11 Q511D 1.12 Q511H 1.33 Q511N 1.14 Q511S 1.15 A535D 1.12 A535K 1.24 A535N 1.37 A535P 1.59 A535R 1.26 A539E 1.32 A539H 1.17 A539M 1.05 A539R 1.36 A539S 1.30 N563A 1.14 N563C 1.49 N563E 1.44 N563I 1.65 N563K 1.77 N563L 1.60 N563Q 1.29 N563T 1.31 N563V 1.53

TABLE 16 Specific activity screening of additional TrGA variants. PI of specific Variants activity N061D 1.05 N0611 1.21 N061L 1.18 N061Q 1.08 N061V 1.11 N061W 1.02 G073C 1.02 G073L 1.07 G073W 1.03 L417A 1.12 L417D 1.19 L417E 1.10 L417F 1.08 L417G 1.19 L4171 1.10 L417K 1.02 L417Q 1.04 L417R 1.30 L417S 1.05 L417T 1.10 L417V 1.21 L417W 1.05 L417Y 1.10 T430A 1.19 T430E 1.15 T430F 1.09 T430G 1.16 T430H 1.15 T4301 1.06 T430K 1.24 T430M 1.16 T430N 1.07 T430Q 1.15 T430R 1.04 T430V 1.09 A431C 1.04 A431E 1.08 A431H 1.11 A4311 1.20 A431L 1.21 A431M 1.12 A431Q 1.22 A431R 1.11 A431S 1.09 A431W 1.04 A431Y 1.13 E503C 1.05 E503D 1.06 E503H 1.01 E503S 1.10 E503W 1.04 Q511C 1.07 Q511G 1.06 Q511H 1.05 Q5111 1.10 Q511K 1.09 Q511T 1.04 Q511V 1.04 A535E 1.19 A535F 1.06 A535G 1.02 A535K 1.07 A535L 1.02 A535N 1.04 A535P 1.14 A535R 1.22 A535S 1.06 A535T 1.04 A535V 1.04 A535W 1.09 A535Y 1.13 A539E 1.08 A539M 1.03 A539S 1.02 A539W 1.06 A539R 1.22

TABLE 17 Additional TrGA variants displaying both increased thermal stability and specific activity PI of PI of specific thermal Variants activity stability N061V 1.11 1.06 G073W 1.03 1.36 L4171 1.10 1.04 L417K 1.02 1.20 L417Q 1.04 1.04 L417R 1.30 1.20 L417V 1.21 1.07 L417Y 1.10 1.01 T430A 1.19 1.05 T430E 1.15 1.02 T430F 1.09 1.06 T430H 1.15 1.10 T430I 1.06 1.04 T430K 1.24 1.08 T430M 1.16 1.17 T430N 1.07 1.13 T430Q 1.15 1.05 T430R 1.04 1.13 T430V 1.09 1.05 A431I 1.20 1.03 A431R 1.11 1.08 E503C 1.05 1.39 E503S 1.10 1.02 Q511H 1.05 1.33 A535K 1.07 1.24 A535N 1.04 1.37 A535P 1.14 1.59 A535R 1.22 1.26 A539E 1.08 1.32 A539M 1.03 1.05 A539R 1.22 1.36 A539S 1.02 1.30

Example 12 Characterization of a Selected Set of Single Site and Combinatorial Variants

Based on the results of Examples 4-6 and 11, a selected set of combinatorial variants, and single site variants were further characterized for their alter properties. The selected set includes single site and combinatorial variants with substitution(s) at: 143, D44, N61, G73, G294, L417, T430, A431, E503, Q511, A535, A539, and/or N563. Variants were purified from large-scale fermentation, and PIs of thermal stability and specific activities were determined Specifically, specific activities were determined using different substrates, including DP7, cornstarch, and liquefact. The results are shown in Table 18 and 19.

TABLE 18 PIs of a selected set of single site variants, each of which is from a 500 ml fermentation P.I. P.I. P.I. P.I. DP7- CornStarch- Thermal Liquefact- Variants FPLC FPLC Stability FPLC N61I 1.16 1.35 1.00 1.66 A431L 1.15 1.38 1.18 1.51 L417V 1.18 1.32 1.02 1.40 A431Q 1.06 1.20 0.92 1.24 G294C 1.01 0.84 0.94 1.23 N563K 1.07 1.12 1.97 1.15 Q511H 1.05 1.09 1.52 1.13 T430M 1.05 1.15 0.89 1.09 E503A 1.08 1.16 1.40 1.09 I43Q 1.11 1.24 0.94 1.08 A539R 1.15 1.37 1.43 1.08 I43R 1.03 1.07 1.41 1.07 L417R 1.23 1.27 1.51 1.04 T430A 1.13 1.35 1.23 1.04 G73F 1.06 1.06 1.45 1.03 D44R 0.97 1.06 1.46 0.98 N563I 1.09 1.22 2.06 0.92 D44C 0.80 0.82 0.96 0.91 E503V 1.17 1.07 1.66 0.88 A535R 1.09 1.44 1.47 0.85

TABLE 19 PIs of a selected set of combinatorial variants P.I. P.I. Corn P.I. P.I. DP7- Starch- Thermal Liquefact- Ferm. Variant Substitutions FPLC FPLC Stability FPLC 100 ml C4 G73F/T430A/E503V/Q511H 1.05 1.06 2.57 1.01 100 ml C9 D44C/G73F/L417R/N563K 0.95 1.00 2.57 1.22 100 ml C11 D44C/G73F/N563K 0.83 1.04 2.42 500 ml ALL5 I43R/L417V/E503A/Q511H/A539R 1.22 1.48 2.37 1.87 100 ml C15 D44C/L417R/N563K 0.95 1.09 2.30 0.99 100 ml C8 D44C/G73F/N563K 0.87 1.05 2.28 500 ml C5 D44C/G73F/N563K 0.90 0.71 2.16 0.97 500 ml TS1 I43R/T430A/E503V/A535R/N563K 2.13 500 ml C7 D44C/G73F/E503V/Q511H 0.90 0.79 2.10 0.89 500 ml ALL1 I43Q/D44C/L417V/E503A/Q511H/A539R 1.00 1.27 1.95 1.59 500 ml CS4 L417V/T430A/Q511H/A539R/N563I 1.21 1.53 1.95 1.73 100 ml C2 I43R/G73F/T430A 1.09 1.25 1.91 1.18 500 ml RB7 I43Q/T430A/Q511H/L417V/A539R 1.11 1.36 1.85 2.17 500 ml C1 G73F/T430A/Q511H 1.20 1.07 1.84 0.96 500 ml ALL2 I43Q/L417V/E503A/Q511H/A539R 1.16 1.52 1.84 1.96 500 ml ALL6 I43R/N61I/L417V/E503A/Q511H/A539R 1.06 1.53 1.84 2.24 500 ml ALL8 I43R/N61I/L417R/E503A/Q511H/A539R 1.10 1.53 1.84 2.11 500 ml RB20 I43Q/Q511H/A539R/T430M/N61I/L417V 1.01 1.55 1.79 1.95 500 ml ALL4 I43Q/N61I/L417V/E503A/Q511H/A539R 1.08 1.52 1.79 1.73 500 ml CS3 L417V/T430A/Q511H/A535R/N563I 0.98 1.40 1.69 1.78 500 ml RB9 I43Q/T430A/Q511H/A431L/E503A 0.93 1.39 1.69 1.55 500 ml RB17 I43Q/Q511H/A539R/E503A 1.12 1.38 1.68 1.40 500 ml ALL7 I43R/L417R/E503A/A539R 1.04 1.54 1.67 1.62 500 ml TS4 I43R/T430A/E503A/Q511H/N563K 0.98 1.33 1.66 1.33 500 ml RB18 I43Q/Q511H/A539R/T430M 1.06 1.44 1.64 1.40 100 ml C12 I43R/T430A/ 1.15 1.35 1.60 1.26 500 ml RB16 I43Q/Q511H/A539R/N61I 1.11 1.43 1.60 1.34 500 ml TS5 D44R/T430A/Q511H/A535R 0.89 1.22 1.59 1.21 500 ml RB8 I43Q/T430A/Q511H/A431L/A539R 1.02 1.38 1.59 2.18 500 ml RB11 I43Q/T430A/Q511H/L417V/A539R/ 1.05 1.36 1.58 2.03 A431L 500 ml CS1 L417V/T430A/A431L/Q511H/A535R/ 1.08 1.71 1.56 2.35 A539R/N563I 500 ml LQ5 L417R/A431L/Q511H 0.95 1.21 1.56 1.88 500 ml CS2 L417V/T430A/A431Q/Q511H/A535R/ 1.07 1.71 1.56 2.32 A539R/N563I 500 ml TS2 D44R/E503A/Q511H/N563I 0.90 1.14 1.53 1.23 500 ml RB15 I43Q/Q511H/A539R 1.19 1.42 1.52 1.69 500 ml RB13 I43Q/Q511H/L417V 1.06 1.38 1.50 1.50 500 ml RB5 I43Q/T430A/Q511H/A539R 0.99 1.45 1.47 1.59 500 ml RB4 I43Q/T430A/Q511H/E503A 1.07 1.29 1.47 1.50 500 ml RB19 I43Q/Q511H/A539R/T430M/N61I 1.00 1.50 1.47 1.88 500 ml ALL3 I43Q/D44C/N61I/L417V/E503A/ 0.82 1.30 1.43 1.64 Q511H/A539R 500 ml LQ4 G294C/L417R/A431Q/Q511H 1.02 1.19 1.43 1.65 500 ml RB2 I43Q/T430A/Q511H/L417V 1.09 1.38 1.42 1.87 500 ml TS3 E503A/N563I/ 0.94 1.17 1.39 1.04 500 ml RB12 I43Q/Q511H/N61I 0.96 1.25 1.37 1.56 500 ml RB14 I43Q/Q511H/A431L 1.01 1.31 1.37 1.55 500 ml LQ6 L417V/A431Q/Q511H 0.94 1.33 1.35 2.05 100 ml C14 I43Q/T430A/Q511H 1.09 1.34 1.33 1.46 500 ml LQ3 G294C/L417V/A431L/Q511H 0.80 1.21 1.29 2.07 500 ml RB3 I43Q/T430A/Q511H/A431L 1.20 1.25 1.29 1.70 500 ml RB10 I43Q/T430A/Q511H/N61I/A539R/A431L 0.87 1.47 1.29 1.73 500 ml RB1 I43Q/T430A/Q511H/N61I 1.19 1.15 1.27 1.47 100 ml C13 I43Q/T430A/ 1.07 1.29 1.10 1.45 500 ml LQ1 G294C/L417R/A431L 0.90 1.08 1.04 1.77 500 ml LQ2 G294C/L417V/A431Q 0.80 1.08 1.02 2.08 500 ml RB6 I43Q/T430A/Q511H/N61I/A539R 0.94

Example 11 Crystal Structure of TrGA

The complete three dimensional structure of Trichoderma reesei (Hypocrea jecorina) glucoamylase (TrGA) was determined at 1.9 Å resolution. Table 20 shows the coordinates for the Trichoderma glucoamylase crystal structure. TrGA was crystallized in an intact form containing 599 residues and all post-translational modifications that would normally occur in the natural host. The crystal structure was produced and analyzed as follows:

For protein expression and purification, the gene encoding H. jecorina GA was cloned and expressed according to the protocols described in the U.S. Pat. No. 7,413,887.

The TrGA protein material used for all crystallization experiments was initially purified in one step by anion exchange chromatography as follows: concentrated culture supernatants of expressed TrGA, consisting of 180 mg/ml total protein, were prepared by diluting sample 1:10 in a 25 mM Tris-HCl, pH 8.0 buffer. A HiPrep 16/10 Q Sepharose FF column (GE Helthcare) was employed for the anion exchange purification. The HiPrep column was equilibrated with 4 column volumes (CV) starting buffer (25 mM Tris-HCl, pH 8.0) followed by application of 10 ml of the diluted protein sample. An 8 CV linear gradient of 0 to 140 mM NaCl in the running buffer (25 mM Tris-HCl, pH 8.0) was applied to elute bound protein. Bound TrGA eluted from the HiPrep Q sepharose column at a salt concentration of approximately 80 mM NaCl. Fractions containing pure TrGA protein were pooled and concentrated to 50 mg/ml using a 25 ml Vivaspin centrifugal concentration tube (Viva Science) with a molecular weight cutoff (MWCO) of 10 kD. Purified and concentrated TrGA material was buffer exchanged using a DG-10 desalting column (Bio-Rad) equilibrated with 50 mM sodium acetate buffer, pH 4.3. Protein concentrations were determined by measuring the absorbance at 280 nm The initially purified and concentrated TrGA protein stock was thereafter stored at −20° C.

Two additional purification steps, on additional anion exchange purification, and a size exclusion purification, were introduced to enhance the crystability of the TrGA protein material. These two additional purification steps were performed as follows. In the first anion exchange purification step a 10 ml MonoQ column (GE Helthcare) was employed. A Sample of 1 ml of the initially purified and frozen TrGA material (50 mg protein) was thawed and the buffer was changed to 20 mM Tris-HCl, pH 8.0, by repeated dilution of the sample to 6 ml in the new buffer, followed by a concentration of the sample again to 0.5 ml using a 6 ml 5 kD MWCO concentration tube. The TrGA sample was diluted after the last concentration step in distilled water until a conductivity of the protein sample was reached that corresponded to the conductivity of the starting buffer of the anion purification, i.e. 25 mM Tris-HCl, pH 8.0. The MonoQ column was first equilibrated with 4 column volumes (CV) starting buffer, followed by application of the diluted protein sample to the column Bound protein was eluted from the MonoQ column by two different gradients. In the first a 4 CV linear pH gradient was applied where the pH of the starting buffer was decreased from 8.0 to 6.0. In the second gradient an 8 CV long salt gradient was applied in which the salt concentration was increased from 0 to 350 mM NaCl in the running buffer (25 mM Tris-HCl, pH 6.0). Bound TrGA was found to elute from the column during the second salt gradient at an approximate NaCl concentration of 150 mM. Fractions containing TrGA were pooled and concentrated to 2 ml using a 6 ml 5 kD MWCO Vivaspin concentration tube. The concentrated TrGA sample was thereafter applied to a Superdex 200 16/60 size exclusion column (GE Helthcare) equilibrated with 4 CV of 20 mM Tris-Cl, pH 8.0, and 50 mM NaCl, which also was used as running buffer. Fractions from the main elution peak after the size exclusion purification were pooled and concentrated to an approximate protein concentration of 7.5 mg/ml using a 6 ml 5 kD MWCO Vivaspin concentration tube.

For protein crystallization, the protein sample that was used to find the initial TrGA crystallization conditions was a sample of the TrGA material that was purified once by anion exchange purification and thereafter stored at −20° C. The TrGA protein sample was thawed and diluted with 50 mM sodium acetate buffer, pH 4.3, to approximately 12 mg/ml, prior to the initial crystallization experiments. The orthorhombic X-ray dataset, was used to solve the TrGA structure by molecular replacement (MR), and the high-resolution orthorhombic dataset, used for the final orthorhombic space group TrGA structure model. The orthorhombic TrGA crystals were found to grow in solution consisting of 25% PEG 3350, 0.20M ammonium acetate, 0.10M Bis-Tris pH 5.5 (reservoir solution), using the vapor-diffusion method with hanging drops (McPherson 1982), at 20° C. Crystallization drops were prepared by mixing equal amounts of protein solution (12 mg/ml) and reservoir solution to a final volume of 10 μl. The TrGA crystals were found to belong to the orthorhombic space group P212121 with approximate cell dimensions: a=52.2 Å, b=99.2 Å, c=121.2 Å, and have a calculated V_(m) of 2.3 (Matthews 1968) with one molecules in the asymmetric unit.

For X-ray data collection, the two orthorhombic TrGA datasets were collected from single crystals mounted in sealed capillary tubes, at room temperature. The initial lo-resolution orthorhombic TrGA X-ray dataset, used to solve the structure by molecular replacement methods (MR), was collected on a home X-ray source, an MSC/Rigaku (Molecular Structures Corp., The Woodlands, Tex.) Raxis IV++ image plate detector with focusing mirrors using Cu Kα radiation from a Rigaku RU200 rotating anode generator. This dataset was processed, scaled, and averaged using the d*trek software provided by MSC/Rigaku. The C centered monoclinic dataset was collected from a single frozen TrGA crystal at 100K, equilibrated in a cryo-protective agent comprised of 25% PEG 3350, 15% Glycerol 50 mM CaCl₂ and 0.1 M Bis-Tris pH 5.5 as cryoprotectant, mounted in rayon-fiber loops, and plunge frozen in liquid nitrogen prior to transportation to the synchrotron. The high-resolution orthorhombic (1.9 Å) data set and the C centric monoclinic dataset (1.8 Å) were both collected at a synchrotron source, beam line 911:5 at MAX LAB in Lund, Sweden. Both datasets that were collected at a synchrotron source were processed with MOSFLM, and scaled with program SCALA included in the CCP4 program package (Collaborative Computational Project Number 4 1994). All subsequent data processing was performed using the CCP4 program package (Collaborative Computational Project Number 4 1994), unless otherwise stated. A set of 5% of the reflections from each data set was set aside and used for monitoring the R-free (Brünger, A (1992) Nature, 355:472-475).

The TrGA structure was initially solved by MR with the automatic replacement program MOLREP (Collaborative Computational Project Number 4 1994), included in the CCP4 program package, using the initial lo-resolution orthorhombic dataset, and using the coordinates of Aspergillus. awamori GA (AaGA) variant X100 (pdb entry 1GLM (Aleshin et al. (1994) J. Mol. Boil. 238: 575-591) as search model. The A. awamori GA search model was edited to remove all glycosylation moieties attached to the protein molecule as N- and O-glycosylations, and all solvent molecules before carrying out the MR experiments. All reflections between 36.8 and 2.8 Å resolution, from the initial lo resolution TrGA dataset, was used for the MR solution. The MR program found a single rotation function solution, with a maxima of 11.1σ above background, the next highest maxima was 3.8σ above the background. The translation function solution gave an R-factor of 48.7% and had a contrast factor of 17.4. The MR solution was refined for 10 cycles of restrained least squares refinement using the program Refmac 5.0 (Murshudov et al (1997) Acta Crystallogr. D53: 240-255). This lowered the crystallographic R-factor to 31.1% while the R-free value dropped from 42.2% to 41.1%.

The refined MR solution model was used to calculate an initial density map from the lo-resolution orthorhombic TrGA dataset. Electron density for a disulfide bridge between residues 19 and 26 of TrGA, a disulfide bridge not present in the A. awamori variant X100 structure model, could readily be identified in this electron density map. This was taken as an indication that the electron density map was of sufficient quality to be used to build a structure model of TrGA from its amino acid sequence. The initial TrGA structure model, based on the lo-resolution dataset, was refined with alternating cycles of model building using Coot (Emsley and Cowtan, (2004) Acta Crystallogr. D boil Crystallogr. 60: 2126-2132), and maximum likelihood refinement using Refmac 5.0.

The resolution of the initial TrGA structure model was extended to the resolution of the high-resolution orthorhombic dataset (1.9 Å) by refining the initial TrGA structure model against the high-resolution dataset for 10 cycles of restrained refinement using the program Refmac 5.0. Most water molecules in the structure models were located automatically by using the water picking protocols in the refinement programs, and then manually selected or discarded by inspection by eye. All structural comparisons were made with either Coot (Emsley and Cowtan (2004) supra) or O (Jones et al. (1991) Acta Crystallogr. A47: 110-119), and figures were prepared with PyMOL (Delano W. L. (2002) The PyMOL Molecular Graphics System. Palo Alto, Calif., USA; Delano Scientific).

From these results, it can be seen that the TrGA catalytic core segment followed the same (α/α)₆-barrel topology described by Aleshin et al. 1992 for the AaGA, consisting of a double barrel of alpha helices with the C-terminal of the outer helix leading into the N-terminus of an inner helix. It was possible to identify key differences in the electron density such as the disulfide bridge between residues 19 and 26 and an insertion (residues 257-260) relative to AaGA. The segment comprising 80-100 also underwent extensive model rebuilding. One major glycosylation site was identified at Asn 171, which had up to four glycoside moieties attached. A similar glycosylation site was identified in AaGA. Additionally, the catalytic core containing three cis-peptides between residues 22-23, 44-45 and 122-123 were conserved between TrGA and AaGA. Overall there was an rms variation of 0.535 Å between 409 out of 453 Ca atoms when comparing the coordinates of the catalytic cores of TrGA and AaGA.

Example 14 Homology Between TrGA and AaGA

The crystal structure of the TrGA identified in Example 13, was superposed on the previously identified crystal structure of the Aspergillus awamori GA (AaGA). The AaGA crystal structure was obtained from the protein database (PDB) and the form of AaGA that was crystallized was the form containing only a catalytic domain. The structure of the Trichoderma reesei glucoamylase with all three regions intact was determined to 1.8 Angstrom resolution herein (see Table 15 and Example 12). Using the coordinates (see Table 20) the structure was aligned with the coordinates of the catalytic domain from Aspergillus awamorii strain X100 that was determined previously (Aleshin, A. E., Hoffman, C., Firsov, L. M., and Honzatko, R. B. 1994 Refined crystal structures of glucoamylase from Aspergillus awamori var. X100. J Mol Biol 238: 575-591 and the PDB). As seen in FIGS. 12 and 13 the structure of the catalytic domain overlapped very closely and allowed the identification of equivalent residues based on this structural superposition.

Based on this analysis, sites were identified that could be mutated in TrGA and result in increased stability and/or specific activity. These sites include 108, 124, 175 and 316 at the active site. Also identified were specific pairwise variants Y47W/Y315F and Y47F/Y315W. Other sites identified were 143, D44, P45, D46, R122, R125, V181, E242, Y310, D313, V314, N317, R408, and N409. Because of the high structural homology it is expected that beneficial variants found at sites in TrGA would have similar consequences in Aspergillus awamori and other homologous glucoamylases.

Various modifications and variations of the described methods and system of the disclosure will be apparent to those skilled in the art without departing from the scope and spirit of the disclosure. Although the disclosure has been described in connection with specific representative embodiments, it should be understood that the subject matters as claimed should not be unduly limited to such specific embodiments. Indeed, various modifications of the described modes for carrying out the disclosure that are obvious to those skilled in the art are intended to be within the scope of the following claims.

TABLE 20 CRYST1  52.185  99.232 121.240  90.00 90.00 90.00 ORIGX1    1.000000 0.000000 0.000000     0.00000 ORIGX2    0.000000 1.000000 0.000000     0.00000 ORIGX3    0.000000 0.000000 1.000000     0.00000 SCALE1    0.019163 −0.000001 −0.000001     0.00000 SCALE2    0.000000 0.010077 0.000000     0.00000 SCALE3    0.000000 0.000000 0.008248     0.00000 ATOM 1 N SER A 1 −30.485 30.567 −21.185 1.00 37.11 ATOM 2 CA SER A 1 −30.568 29.350 −20.326 1.00 37.00 ATOM 3 CB SER A 1 −31.953 28.707 −20.424 1.00 37.27 ATOM 4 OG SER A 1 −32.137 28.089 −21.695 1.00 40.11 ATOM 5 C SER A 1 −29.519 28.345 −20.772 1.00 35.91 ATOM 6 O SER A 1 −29.043 28.415 −21.911 1.00 35.46 ATOM 7 N VAL A 2 −29.170 27.425 −19.867 1.00 34.51 ATOM 8 CA VAL A 2 −28.302 26.293 −20.179 1.00 33.56 ATOM 9 CB VAL A 2 −28.142 25.339 −18.955 1.00 33.84 ATOM 10 CG1 VAL A 2 −27.349 24.103 −19.316 1.00 34.20 ATOM 11 CG2 VAL A 2 −27.468 26.057 −17.827 1.00 34.79 ATOM 12 C VAL A 2 −28.846 25.506 −21.363 1.00 32.48 ATOM 13 O VAL A 2 −28.086 25.109 −22.245 1.00 31.10 ATOM 14 N ASP A 3 −30.160 25.286 −21.381 1.00 31.43 ATOM 15 CA ASP A 3 −30.791 24.530 −22.457 1.00 31.38 ATOM 16 CB ASP A 3 −32.283 24.323 −22.190 1.00 32.17 ATOM 17 CG ASP A 3 −32.522 23.492 −20.943 1.00 35.28 ATOM 18 OD1 ASP A 3 −32.413 22.251 −21.028 1.00 36.80 ATOM 19 OD2 ASP A 3 −32.786 24.092 −19.870 1.00 40.63 ATOM 20 C ASP A 3 −30.556 25.153 −23.818 1.00 30.59 ATOM 21 O ASP A 3 −30.282 24.446 −24.778 1.00 30.19 ATOM 22 N ASP A 4 −30.644 26.477 −23.875 1.00 29.89 ATOM 23 CA ASP A 4 −30.369 27.244 −25.083 1.00 29.99 ATOM 24 CB ASP A 4 −30.601 28.731 −24.822 1.00 31.12 ATOM 25 CG ASP A 4 −32.088 29.121 −24.785 1.00 34.16 ATOM 26 OD1 ASP A 4 −32.991 28.260 −24.925 1.00 36.06 ATOM 27 OD2 ASP A 4 −32.340 30.332 −24.608 1.00 39.96 ATOM 28 C ASP A 4 −28.925 27.049 −25.579 1.00 28.65 ATOM 29 O ASP A 4 −28.697 26.881 −26.770 1.00 28.51 ATOM 30 N PHE A 5 −27.961 27.096 −24.660 1.00 26.74 ATOM 31 CA PHE A 5 −26.553 26.860 −24.994 1.00 25.21 ATOM 32 CB PHE A 5 −25.666 27.110 −23.764 1.00 25.59 ATOM 33 CG PHE A 5 −24.244 26.646 −23.931 1.00 26.03 ATOM 34 CD1 PHE A 5 −23.395 27.259 −24.854 1.00 27.29 ATOM 35 CE1 PHE A 5 −22.063 26.823 −25.009 1.00 27.33 ATOM 36 CZ PHE A 5 −21.593 25.783 −24.228 1.00 26.77 ATOM 37 CE2 PHE A 5 −22.425 25.181 −23.286 1.00 28.42 ATOM 38 CD2 PHE A 5 −23.749 25.617 −23.144 1.00 28.42 ATOM 39 C PHE A 5 −26.352 25.438 −25.539 1.00 24.23 ATOM 40 O PHE A 5 −25.659 25.244 −26.544 1.00 23.56 ATOM 41 N ILE A 6 −26.974 24.458 −24.892 1.00 22.71 ATOM 42 CA ILE A 6 −26.835 23.065 −25.312 1.00 22.36 ATOM 43 CB ILE A 6 −27.491 22.106 −24.299 1.00 21.86 ATOM 44 CG1 ILE A 6 −26.744 22.181 −22.956 1.00 22.27 ATOM 45 CD1 ILE A 6 −27.384 21.347 −21.834 1.00 22.36 ATOM 46 CG2 ILE A 6 −27.571 20.669 −24.848 1.00 21.69 ATOM 47 C ILE A 6 −27.388 22.855 −26.723 1.00 22.84 ATOM 48 O ILE A 6 −26.753 22.216 −27.573 1.00 21.76 ATOM 49 N SER A 7 −28.556 23.420 −26.996 1.00 23.10 ATOM 50 CA SER A 7 −29.146 23.175 −28.309 1.00 23.90 ATOM 51 CB SER A 7 −30.627 23.570 −28.320 1.00 25.04 ATOM 52 OG SER A 7 −30.717 24.982 −28.282 1.00 30.08 ATOM 53 C SER A 7 −28.340 23.874 −29.422 1.00 22.78 ATOM 54 O SER A 7 −28.186 23.337 −30.508 1.00 22.94 ATOM 55 N THR A 8 −27.800 25.053 −29.140 1.00 22.50 ATOM 56 CA THR A 8 −26.984 25.780 −30.115 1.00 23.05 ATOM 57 CB THR A 8 −26.834 27.247 −29.698 1.00 23.65 ATOM 58 OG1 THR A 8 −28.138 27.839 −29.700 1.00 27.60 ATOM 59 CG2 THR A 8 −25.939 28.018 −30.660 1.00 26.76 ATOM 60 C THR A 8 −25.601 25.159 −30.307 1.00 21.46 ATOM 61 O THR A 8 −25.109 25.051 −31.437 1.00 21.38 ATOM 62 N GLU A 9 −24.978 24.768 −29.200 1.00 19.11 ATOM 63 CA GLU A 9 −23.596 24.269 −29.243 1.00 18.01 ATOM 64 CB GLU A 9 −22.959 24.334 −27.847 1.00 17.76 ATOM 65 CG GLU A 9 −21.449 23.945 −27.794 1.00 17.71 ATOM 66 CD GLU A 9 −20.536 24.892 −28.609 1.00 20.86 ATOM 67 OE1 GLU A 9 −20.949 26.010 −28.971 1.00 19.89 ATOM 68 OE2 GLU A 9 −19.389 24.500 −28.909 1.00 19.22 ATOM 69 C GLU A 9 −23.462 22.846 −29.784 1.00 17.77 ATOM 70 O GLU A 9 −22.423 22.505 −30.368 1.00 18.05 ATOM 71 N THR A 10 −24.485 22.020 −29.593 1.00 15.87 ATOM 72 CA THR A 10 −24.404 20.609 −29.958 1.00 17.31 ATOM 73 CB THR A 10 −25.677 19.823 −29.525 1.00 17.46 ATOM 74 OG1 THR A 10 −25.768 19.860 −28.090 1.00 17.46 ATOM 75 CG2 THR A 10 −25.616 18.374 −30.037 1.00 18.42 ATOM 76 C THR A 10 −24.026 20.346 −31.430 1.00 17.40 ATOM 77 O THR A 10 −23.073 19.615 −31.682 1.00 17.22 ATOM 78 N PRO A 11 −24.764 20.934 −32.412 1.00 18.30 ATOM 79 CA PRO A 11 −24.346 20.649 −33.798 1.00 18.11 ATOM 80 CB PRO A 11 −25.440 21.317 −34.662 1.00 18.57 ATOM 81 CG PRO A 11 −26.094 22.310 −33.771 1.00 19.16 ATOM 82 CD PRO A 11 −25.975 21.779 −32.361 1.00 18.54 ATOM 83 C PRO A 11 −22.963 21.231 −34.142 1.00 17.81 ATOM 84 O PRO A 11 −22.241 20.655 −34.964 1.00 17.74 ATOM 85 N ILE A 12 −22.601 22.353 −33.520 1.00 16.85 ATOM 86 CA ILE A 12 −21.279 22.936 −33.731 1.00 16.66 ATOM 87 CB ILE A 12 −21.161 24.319 −33.112 1.00 17.25 ATOM 88 CG1 ILE A 12 −22.194 25.267 −33.751 1.00 19.25 ATOM 89 CD1 ILE A 12 −22.289 26.635 −33.101 1.00 21.45 ATOM 90 CG2 ILE A 12 −19.714 24.855 −33.270 1.00 18.75 ATOM 91 C ILE A 12 −20.170 22.023 −33.178 1.00 16.30 ATOM 92 O ILE A 12 −19.155 21.798 −33.848 1.00 14.64 ATOM 93 N ALA A 13 −20.360 21.527 −31.951 1.00 15.28 ATOM 94 CA ALA A 13 −19.375 20.627 −31.304 1.00 15.19 ATOM 95 CB ALA A 13 −19.788 20.332 −29.883 1.00 15.31 ATOM 96 C ALA A 13 −19.204 19.326 −32.092 1.00 15.37 ATOM 97 O ALA A 13 −18.083 18.834 −32.297 1.00 13.56 ATOM 98 N LEU A 14 −20.320 18.743 −32.531 1.00 15.13 ATOM 99 CA LEU A 14 −20.225 17.503 −33.285 1.00 16.06 ATOM 100 CB LEU A 14 −21.630 16.921 −33.510 1.00 17.33 ATOM 101 CG LEU A 14 −21.689 15.563 −34.212 1.00 20.02 ATOM 102 CD1 LEU A 14 −20.946 14.460 −33.471 1.00 23.09 ATOM 103 CD2 LEU A 14 −23.150 15.225 −34.390 1.00 21.86 ATOM 104 C LEU A 14 −19.506 17.749 −34.623 1.00 15.61 ATOM 105 O LEU A 14 −18.651 16.947 −35.039 1.00 14.82 ATOM 106 N ASN A 15 −19.853 18.852 −35.285 1.00 15.30 ATOM 107 CA ASN A 15 −19.236 19.228 −36.567 1.00 16.34 ATOM 108 CB ASN A 15 −19.848 20.545 −37.073 1.00 16.07 ATOM 109 CG ASN A 15 −19.232 21.010 −38.388 1.00 18.31 ATOM 110 OD1 ASN A 15 −19.565 20.487 −39.431 1.00 17.60 ATOM 111 ND2 ASN A 15 −18.312 21.987 −38.325 1.00 21.40 ATOM 112 C ASN A 15 −17.736 19.450 −36.405 1.00 15.35 ATOM 113 O ASN A 15 −16.926 18.954 −37.198 1.00 15.29 ATOM 114 N ASN A 16 −17.385 20.180 −35.355 1.00 14.82 ATOM 115 CA ASN A 16 −15.992 20.555 −35.144 1.00 15.27 ATOM 116 CB ASN A 16 −15.872 21.693 −34.148 1.00 15.41 ATOM 117 CG ASN A 16 −16.276 23.023 −34.737 1.00 16.53 ATOM 118 OD1 ASN A 16 −16.517 23.136 −35.954 1.00 18.08 ATOM 119 ND2 ASN A 16 −16.326 24.050 −33.896 1.00 16.35 ATOM 120 C ASN A 16 −15.159 19.362 −34.723 1.00 14.91 ATOM 121 O ASN A 16 −13.975 19.261 −35.099 1.00 15.34 ATOM 122 N LEU A 17 −15.771 18.460 −33.956 1.00 14.29 ATOM 123 CA LEU A 17 −15.114 17.191 −33.610 1.00 13.90 ATOM 124 CB LEU A 17 −16.003 16.346 −32.672 1.00 13.94 ATOM 125 CG LEU A 17 −15.351 15.065 −32.133 1.00 16.81 ATOM 126 CD1 LEU A 17 −15.933 14.708 −30.779 1.00 20.06 ATOM 127 CD2 LEU A 17 −15.484 13.880 −33.097 1.00 19.31 ATOM 128 C LEU A 17 −14.763 16.409 −34.880 1.00 14.06 ATOM 129 O LEU A 17 −13.613 15.957 −35.073 1.00 12.69 ATOM 130 N LEU A 18 −15.774 16.215 −35.730 1.00 13.19 ATOM 131 CA LEU A 18 −15.589 15.441 −36.957 1.00 14.25 ATOM 132 CB LEU A 18 −16.952 15.027 −37.545 1.00 13.56 ATOM 133 CG LEU A 18 −17.717 14.013 −36.684 1.00 16.49 ATOM 134 CD1 LEU A 18 −19.171 13.874 −37.165 1.00 16.33 ATOM 135 CD2 LEU A 18 −17.020 12.647 −36.655 1.00 18.51 ATOM 136 C LEU A 18 −14.703 16.132 −38.007 1.00 13.49 ATOM 137 O LEU A 18 −14.083 15.435 −38.820 1.00 14.69 ATOM 138 N CYS A 19 −14.613 17.462 −37.964 1.00 13.01 ATOM 139 CA CYS A 19 −13.629 18.223 −38.760 1.00 13.22 ATOM 140 CB CYS A 19 −13.796 19.738 −38.556 1.00 14.20 ATOM 141 SG CYS A 19 −15.125 20.407 −39.642 1.00 16.22 ATOM 142 C CYS A 19 −12.182 17.808 −38.450 1.00 13.86 ATOM 143 O CYS A 19 −11.278 18.043 −39.259 1.00 13.42 ATOM 144 N ASN A 20 −11.968 17.219 −37.272 1.00 13.21 ATOM 145 CA ASN A 20 −10.594 16.850 −36.830 1.00 13.62 ATOM 146 CB ASN A 20 −10.394 17.184 −35.324 1.00 13.52 ATOM 147 CG ASN A 20 −10.242 18.687 −35.055 1.00 16.17 ATOM 148 OD1 ASN A 20 −10.035 19.119 −33.897 1.00 17.34 ATOM 149 ND2 ASN A 20 −10.343 19.486 −36.090 1.00 11.87 ATOM 150 C ASN A 20 −10.262 15.381 −37.116 1.00 13.99 ATOM 151 O ASN A 20 −9.238 14.857 −36.646 1.00 14.28 ATOM 152 N VAL A 21 −11.123 14.705 −37.875 1.00 13.41 ATOM 153 CA VAL A 21 −10.923 13.287 −38.167 1.00 14.20 ATOM 154 CB VAL A 21 −12.177 12.448 −37.827 1.00 14.30 ATOM 155 CG1 VAL A 21 −11.953 10.971 −38.189 1.00 15.30 ATOM 156 CG2 VAL A 21 −12.517 12.553 −36.312 1.00 14.17 ATOM 157 C VAL A 21 −10.551 13.136 −39.644 1.00 14.35 ATOM 158 O VAL A 21 −11.255 13.642 −40.491 1.00 15.68 ATOM 159 N GLY A 22 −9.461 12.449 −39.953 1.00 15.67 ATOM 160 CA GLY A 22 −9.061 12.300 −41.377 1.00 15.70 ATOM 161 C GLY A 22 −9.843 11.182 −42.060 1.00 17.34 ATOM 162 O GLY A 22 −10.453 10.358 −41.397 1.00 17.15 ATOM 163 N PRO A 23 −9.806 11.117 −43.404 1.00 18.42 ATOM 164 CA PRO A 23 −9.009 11.946 −44.278 1.00 18.20 ATOM 165 CB PRO A 23 −8.716 10.990 −45.446 1.00 18.64 ATOM 166 CG PRO A 23 −9.983 10.171 −45.560 1.00 18.81 ATOM 167 CD PRO A 23 −10.568 10.092 −44.153 1.00 18.59 ATOM 168 C PRO A 23 −9.761 13.182 −44.753 1.00 19.05 ATOM 169 O PRO A 23 −9.183 14.055 −45.426 1.00 19.36 ATOM 170 N ASP A 24 −11.034 13.288 −44.385 1.00 18.76 ATOM 171 CA ASP A 24 −11.878 14.305 −44.996 1.00 19.39 ATOM 172 CB ASP A 24 −13.015 13.636 −45.781 1.00 20.87 ATOM 173 CG ASP A 24 −13.920 12.784 −44.913 1.00 24.34 ATOM 174 OD1 ASP A 24 −13.502 12.291 −43.839 1.00 27.70 ATOM 175 OD2 ASP A 24 −15.079 12.580 −45.330 1.00 28.83 ATOM 176 C ASP A 24 −12.452 15.372 −44.061 1.00 18.08 ATOM 177 O ASP A 24 −13.208 16.245 −44.509 1.00 17.78 ATOM 178 N GLY A 25 −12.100 15.331 −42.775 1.00 16.65 ATOM 179 CA GLY A 25 −12.634 16.343 −41.852 1.00 16.02 ATOM 180 C GLY A 25 −12.152 17.718 −42.292 1.00 15.70 ATOM 181 O GLY A 25 −11.033 17.849 −42.811 1.00 16.22 ATOM 182 N CYS A 26 −12.979 18.752 −42.086 1.00 15.10 ATOM 183 CA CYS A 26 −12.698 20.078 −42.637 1.00 15.46 ATOM 184 CB CYS A 26 −13.899 21.037 −42.475 1.00 15.47 ATOM 185 SG CYS A 26 −14.147 21.739 −40.786 1.00 16.91 ATOM 186 C CYS A 26 −11.407 20.731 −42.116 1.00 15.65 ATOM 187 O CYS A 26 −10.896 21.643 −42.763 1.00 15.80 ATOM 188 N ARG A 27 −10.879 20.259 −40.973 1.00 15.02 ATOM 189 CA ARG A 27 −9.615 20.808 −40.443 1.00 14.56 ATOM 190 CB ARG A 27 −9.819 21.480 −39.066 1.00 15.00 ATOM 191 CG ARG A 27 −10.695 22.728 −39.164 1.00 15.15 ATOM 192 CD ARG A 27 −10.826 23.551 −37.888 1.00 14.30 ATOM 193 NE ARG A 27 −11.874 24.566 −38.080 1.00 15.05 ATOM 194 CZ ARG A 27 −13.160 24.420 −37.761 1.00 17.96 ATOM 195 NH1 ARG A 27 −13.623 23.293 −37.211 1.00 17.37 ATOM 196 NH2 ARG A 27 −14.009 25.415 −38.025 1.00 19.55 ATOM 197 C ARG A 27 −8.489 19.776 −40.394 1.00 15.49 ATOM 198 O ARG A 27 −7.389 20.079 −39.888 1.00 15.40 ATOM 199 N ALA A 28 −8.768 18.577 −40.910 1.00 15.17 ATOM 200 CA ALA A 28 −7.805 17.484 −40.988 1.00 16.06 ATOM 201 CB ALA A 28 −8.163 16.374 −39.975 1.00 15.52 ATOM 202 C ALA A 28 −7.744 16.913 −42.394 1.00 16.96 ATOM 203 O ALA A 28 −7.453 15.730 −42.581 1.00 17.60 ATOM 204 N PHE A 29 −8.028 17.756 −43.380 1.00 17.45 ATOM 205 CA PHE A 29 −8.188 17.272 −44.744 1.00 18.68 ATOM 206 CB PHE A 29 −8.728 18.376 −45.636 1.00 19.45 ATOM 207 CG PHE A 29 −9.299 17.864 −46.919 1.00 20.86 ATOM 208 CD1 PHE A 29 −8.515 17.827 −48.071 1.00 23.76 ATOM 209 CE1 PHE A 29 −9.042 17.343 −49.267 1.00 25.46 ATOM 210 CZ PHE A 29 −10.357 16.889 −49.318 1.00 22.85 ATOM 211 CE2 PHE A 29 −11.151 16.924 −48.180 1.00 24.78 ATOM 212 CD2 PHE A 29 −10.611 17.408 −46.973 1.00 22.71 ATOM 213 C PHE A 29 −6.853 16.783 −45.296 1.00 19.10 ATOM 214 O PHE A 29 −5.862 17.501 −45.224 1.00 19.40 ATOM 215 N GLY A 30 −6.830 15.558 −45.816 1.00 18.73 ATOM 216 CA GLY A 30 −5.603 15.008 −46.398 1.00 19.00 ATOM 217 C GLY A 30 −4.717 14.307 −45.399 1.00 19.69 ATOM 218 O GLY A 30 −3.657 13.809 −45.768 1.00 19.61 ATOM 219 N THR A 31 −5.133 14.255 −44.123 1.00 18.86 ATOM 220 CA THR A 31 −4.450 13.384 −43.165 1.00 19.14 ATOM 221 CB THR A 31 −4.846 13.689 −41.689 1.00 18.79 ATOM 222 OG1 THR A 31 −6.265 13.579 −41.559 1.00 18.61 ATOM 223 CG2 THR A 31 −4.410 15.106 −41.262 1.00 16.47 ATOM 224 C THR A 31 −4.812 11.925 −43.498 1.00 19.11 ATOM 225 O THR A 31 −5.713 11.661 −44.313 1.00 19.69 ATOM 226 N SER A 32 −4.107 10.982 −42.881 1.00 19.74 ATOM 227 CA SER A 32 −4.367 9.554 −43.094 1.00 20.00 ATOM 228 CB SER A 32 −3.411 8.722 −42.248 1.00 20.73 ATOM 229 OG SER A 32 −2.064 8.973 −42.612 1.00 21.56 ATOM 230 C SER A 32 −5.806 9.217 −42.704 1.00 20.57 ATOM 231 O SER A 32 −6.334 9.778 −41.732 1.00 20.70 ATOM 232 N ALA A 33 −6.443 8.319 −43.452 1.00 19.94 ATOM 233 CA ALA A 33 −7.768 7.823 −43.068 1.00 19.61 ATOM 234 CB ALA A 33 −8.232 6.729 −44.035 1.00 19.31 ATOM 235 C ALA A 33 −7.764 7.285 −41.637 1.00 19.10 ATOM 236 O ALA A 33 −6.906 6.482 −41.264 1.00 19.49 ATOM 237 N GLY A 34 −8.742 7.719 −40.856 1.00 17.74 ATOM 238 CA GLY A 34 −8.878 7.282 −39.473 1.00 18.31 ATOM 239 C GLY A 34 −7.988 8.020 −38.473 1.00 18.48 ATOM 240 O GLY A 34 −8.050 7.739 −37.271 1.00 19.07 ATOM 241 N ALA A 35 −7.173 8.959 −38.937 1.00 17.05 ATOM 242 CA ALA A 35 −6.329 9.723 −38.000 1.00 17.17 ATOM 243 CB ALA A 35 −5.167 10.376 −38.730 1.00 17.10 ATOM 244 C ALA A 35 −7.173 10.784 −37.271 1.00 16.55 ATOM 245 O ALA A 35 −8.174 11.271 −37.808 1.00 17.35 ATOM 246 N VAL A 36 −6.793 11.130 −36.051 1.00 15.39 ATOM 247 CA VAL A 36 −7.490 12.198 −35.328 1.00 14.41 ATOM 248 CB VAL A 36 −8.142 11.687 −34.031 1.00 15.02 ATOM 249 CG1 VAL A 36 −8.903 12.828 −33.349 1.00 16.72 ATOM 250 CG2 VAL A 36 −9.081 10.520 −34.336 1.00 16.45 ATOM 251 C VAL A 36 −6.407 13.201 −34.944 1.00 14.36 ATOM 252 O VAL A 36 −5.421 12.816 −34.311 1.00 14.44 ATOM 253 N ILE A 37 −6.566 14.454 −35.331 1.00 13.68 ATOM 254 CA ILE A 37 −5.614 15.470 −34.893 1.00 13.67 ATOM 255 CB ILE A 37 −5.528 16.687 −35.849 1.00 13.66 ATOM 256 CG1 ILE A 37 −6.847 17.486 −35.901 1.00 14.31 ATOM 257 CD1 ILE A 37 −6.773 18.712 −36.864 1.00 14.21 ATOM 258 CG2 ILE A 37 −5.158 16.214 −37.260 1.00 14.62 ATOM 259 C ILE A 37 −6.041 15.908 −33.505 1.00 13.27 ATOM 260 O ILE A 37 −7.235 16.011 −33.224 1.00 12.99 ATOM 261 N ALA A 38 −5.081 16.159 −32.630 1.00 13.03 ATOM 262 CA ALA A 38 −5.445 16.697 −31.333 1.00 12.81 ATOM 263 CB ALA A 38 −4.235 16.680 −30.377 1.00 12.73 ATOM 264 C ALA A 38 −6.046 18.122 −31.497 1.00 12.45 ATOM 265 O ALA A 38 −6.939 18.503 −30.775 1.00 12.23 ATOM 266 N SER A 39 −5.555 18.870 −32.482 1.00 12.90 ATOM 267 CA SER A 39 −5.973 20.246 −32.769 1.00 12.85 ATOM 268 CB SER A 39 −5.512 21.211 −31.657 1.00 12.63 ATOM 269 OG SER A 39 −5.312 22.563 −32.108 1.00 12.57 ATOM 270 C SER A 39 −5.281 20.593 −34.090 1.00 13.33 ATOM 271 O SER A 39 −4.215 20.043 −34.376 1.00 13.48 ATOM 272 N PRO A 40 −5.880 21.500 −34.885 1.00 13.12 ATOM 273 CA PRO A 40 −5.248 21.999 −36.108 1.00 13.76 ATOM 274 CB PRO A 40 −6.407 22.689 −36.860 1.00 14.41 ATOM 275 CG PRO A 40 −7.386 23.045 −35.797 1.00 14.32 ATOM 276 CD PRO A 40 −7.223 22.081 −34.665 1.00 13.18 ATOM 277 C PRO A 40 −4.126 23.010 −35.860 1.00 14.27 ATOM 278 O PRO A 40 −3.474 23.420 −36.824 1.00 14.43 ATOM 279 N SER A 41 −3.864 23.381 −34.599 1.00 13.42 ATOM 280 CA SER A 41 −2.799 24.336 −34.318 1.00 14.56 ATOM 281 CB SER A 41 −2.788 24.817 −32.840 1.00 14.40 ATOM 282 OG SER A 41 −3.962 25.574 −32.534 1.00 16.91 ATOM 283 C SER A 41 −1.446 23.713 −34.676 1.00 14.51 ATOM 284 O SER A 41 −1.123 22.626 −34.218 1.00 13.96 ATOM 285 N THR A 42 −0.650 24.433 −35.470 1.00 15.63 ATOM 286 CA THR A 42 0.652 23.924 −35.919 1.00 16.17 ATOM 287 CB THR A 42 0.750 23.997 −37.458 1.00 17.02 ATOM 288 OG1 THR A 42 0.267 25.283 −37.890 1.00 17.03 ATOM 289 CG2 THR A 42 −0.110 22.906 −38.078 1.00 16.03 ATOM 290 C THR A 42 1.814 24.732 −35.322 1.00 17.44 ATOM 291 O THR A 42 2.967 24.297 −35.382 1.00 17.10 ATOM 292 N ILE A 43 1.509 25.913 −34.787 1.00 18.37 ATOM 293 CA ILE A 43 2.510 26.786 −34.171 1.00 20.62 ATOM 294 CB ILE A 43 2.923 27.952 −35.114 1.00 20.73 ATOM 295 CG1 ILE A 43 3.550 27.428 −36.411 1.00 21.88 ATOM 296 CD1 ILE A 43 3.788 28.507 −37.508 1.00 22.99 ATOM 297 CG2 ILE A 43 3.895 28.910 −34.409 1.00 21.41 ATOM 298 C ILE A 43 1.908 27.395 −32.935 1.00 21.00 ATOM 299 O ILE A 43 0.796 27.921 −32.995 1.00 21.76 ATOM 300 N ASP A 44 2.683 27.470 −31.874 1.00 21.61 ATOM 301 CA ASP A 44 2.237 27.975 −30.572 1.00 23.04 ATOM 302 CB ASP A 44 2.408 29.506 −30.492 1.00 24.75 ATOM 303 CG ASP A 44 2.170 30.064 −29.098 1.00 31.28 ATOM 304 OD1 ASP A 44 2.362 29.340 −28.094 1.00 37.92 ATOM 305 OD2 ASP A 44 1.766 31.260 −28.997 1.00 40.00 ATOM 306 C ASP A 44 0.782 27.608 −30.196 1.00 21.65 ATOM 307 O ASP A 44 −0.046 28.502 −29.981 1.00 22.69 ATOM 308 N PRO A 45 0.441 26.449 −29.805 1.00 19.86 ATOM 309 CA PRO A 45 1.356 25.320 −29.775 1.00 18.66 ATOM 310 CB PRO A 45 0.883 24.549 −28.549 1.00 18.40 ATOM 311 CG PRO A 45 −0.653 24.763 −28.586 1.00 18.13 ATOM 312 CD PRO A 45 −0.899 26.066 −29.318 1.00 20.04 ATOM 313 C PRO A 45 1.253 24.454 −31.026 1.00 17.74 ATOM 314 O PRO A 45 0.368 24.652 −31.858 1.00 17.36 ATOM 315 N ASP A 46 2.178 23.512 −31.160 1.00 15.95 ATOM 316 CA ASP A 46 2.124 22.573 −32.275 1.00 14.75 ATOM 317 CB ASP A 46 3.551 22.255 −32.738 1.00 14.59 ATOM 318 CG ASP A 46 3.601 21.161 −33.818 1.00 16.17 ATOM 319 OD1 ASP A 46 2.543 20.787 −34.389 1.00 15.61 ATOM 320 OD2 ASP A 46 4.712 20.641 −34.054 1.00 20.18 ATOM 321 C ASP A 46 1.436 21.303 −31.748 1.00 13.83 ATOM 322 O ASP A 46 2.081 20.489 −31.089 1.00 13.59 ATOM 323 N TYR A 47 0.126 21.165 −31.992 1.00 11.86 ATOM 324 CA TYR A 47 −0.621 19.975 −31.580 1.00 12.11 ATOM 325 CB TYR A 47 −1.895 20.387 −30.854 1.00 11.69 ATOM 326 CG TYR A 47 −1.773 20.722 −29.377 1.00 12.59 ATOM 327 CD1 TYR A 47 −0.589 21.236 −28.827 1.00 13.54 ATOM 328 CE1 TYR A 47 −0.524 21.586 −27.462 1.00 12.81 ATOM 329 CZ TYR A 47 −1.652 21.407 −26.673 1.00 13.40 ATOM 330 OH TYR A 47 −1.620 21.755 −25.354 1.00 13.08 ATOM 331 CE2 TYR A 47 −2.825 20.887 −27.208 1.00 12.02 ATOM 332 CD2 TYR A 47 −2.876 20.540 −28.532 1.00 12.76 ATOM 333 C TYR A 47 −0.994 19.090 −32.772 1.00 11.46 ATOM 334 O TYR A 47 −1.885 18.239 −32.692 1.00 11.66 ATOM 335 N TYR A 48 −0.316 19.301 −33.893 1.00 12.26 ATOM 336 CA TYR A 48 −0.697 18.639 −35.132 1.00 12.80 ATOM 337 CB TYR A 48 −0.323 19.509 −36.348 1.00 12.75 ATOM 338 CG TYR A 48 −1.134 19.146 −37.569 1.00 13.21 ATOM 339 CD1 TYR A 48 −2.492 19.482 −37.652 1.00 14.46 ATOM 340 CE1 TYR A 48 −3.254 19.124 −38.767 1.00 15.86 ATOM 341 CZ TYR A 48 −2.643 18.453 −39.823 1.00 14.62 ATOM 342 OH TYR A 48 −3.390 18.106 −40.936 1.00 16.20 ATOM 343 CE2 TYR A 48 −1.295 18.086 −39.756 1.00 15.86 ATOM 344 CD2 TYR A 48 −0.543 18.456 −38.638 1.00 13.44 ATOM 345 C TYR A 48 −0.072 17.245 −35.187 1.00 13.47 ATOM 346 O TYR A 48 0.877 16.986 −35.940 1.00 13.95 ATOM 347 N TYR A 49 −0.592 16.360 −34.338 1.00 13.13 ATOM 348 CA TYR A 49 −0.131 14.987 −34.171 1.00 13.51 ATOM 349 CB TYR A 49 0.887 14.842 −33.009 1.00 13.11 ATOM 350 CG TYR A 49 2.133 15.662 −33.216 1.00 13.90 ATOM 351 CD1 TYR A 49 3.193 15.174 −33.996 1.00 13.54 ATOM 352 CE1 TYR A 49 4.354 15.964 −34.216 1.00 13.41 ATOM 353 CZ TYR A 49 4.419 17.225 −33.665 1.00 14.69 ATOM 354 OH TYR A 49 5.511 18.016 −33.883 1.00 17.21 ATOM 355 CE2 TYR A 49 3.365 17.737 −32.906 1.00 13.49 ATOM 356 CD2 TYR A 49 2.227 16.952 −32.698 1.00 13.78 ATOM 357 C TYR A 49 −1.349 14.181 −33.783 1.00 13.93 ATOM 358 O TYR A 49 −2.390 14.759 −33.406 1.00 13.00 ATOM 359 N MET A 50 −1.203 12.857 −33.839 1.00 13.66 ATOM 360 CA MET A 50 −2.241 11.940 −33.365 1.00 14.56 ATOM 361 CB MET A 50 −2.447 10.822 −34.381 1.00 15.21 ATOM 362 CG MET A 50 −3.532 9.811 −33.947 1.00 15.64 ATOM 363 SD MET A 50 −3.996 8.804 −35.361 1.00 19.52 ATOM 364 CE MET A 50 −5.204 7.742 −34.566 1.00 17.12 ATOM 365 C MET A 50 −1.797 11.323 −32.060 1.00 14.38 ATOM 366 O MET A 50 −0.806 10.583 −32.024 1.00 13.80 ATOM 367 N TRP A 51 −2.528 11.608 −30.984 1.00 13.47 ATOM 368 CA TRP A 51 −2.265 10.965 −29.720 1.00 13.13 ATOM 369 CB TRP A 51 −2.598 11.930 −28.585 1.00 12.85 ATOM 370 CG TRP A 51 −1.478 12.809 −28.116 1.00 13.64 ATOM 371 CD1 TRP A 51 −0.671 12.604 −27.011 1.00 13.49 ATOM 372 NE1 TRP A 51 0.211 13.657 −26.864 1.00 12.36 ATOM 373 CE2 TRP A 51 −0.023 14.573 −27.858 1.00 11.83 ATOM 374 CD2 TRP A 51 −1.076 14.065 −28.674 1.00 13.12 ATOM 375 CE3 TRP A 51 −1.506 14.825 −29.772 1.00 11.07 ATOM 376 CZ3 TRP A 51 −0.859 16.061 −30.035 1.00 12.87 ATOM 377 CH2 TRP A 51 0.193 16.522 −29.218 1.00 13.24 ATOM 378 CZ2 TRP A 51 0.618 15.806 −28.127 1.00 12.61 ATOM 379 C TRP A 51 −3.136 9.732 −29.575 1.00 13.35 ATOM 380 O TRP A 51 −4.322 9.769 −29.907 1.00 12.89 ATOM 381 N THR A 52 −2.576 8.652 −29.024 1.00 13.20 ATOM 382 CA THR A 52 −3.386 7.462 −28.753 1.00 13.02 ATOM 383 CB THR A 52 −2.520 6.300 −28.235 1.00 13.66 ATOM 384 OG1 THR A 52 −1.553 5.999 −29.246 1.00 15.07 ATOM 385 CG2 THR A 52 −3.341 5.026 −27.952 1.00 12.21 ATOM 386 C THR A 52 −4.533 7.807 −27.800 1.00 12.48 ATOM 387 O THR A 52 −5.670 7.402 −28.034 1.00 12.78 ATOM 388 N ARG A 53 −4.224 8.556 −26.747 1.00 12.03 ATOM 389 CA ARG A 53 −5.238 8.868 −25.737 1.00 11.89 ATOM 390 CB ARG A 53 −4.607 9.570 −24.545 1.00 11.46 ATOM 391 CG ARG A 53 −5.611 10.330 −23.618 1.00 13.19 ATOM 392 CD ARG A 53 −4.896 10.881 −22.375 1.00 11.14 ATOM 393 NE ARG A 53 −3.793 11.694 −22.819 1.00 12.52 ATOM 394 CZ ARG A 53 −2.509 11.330 −22.769 1.00 13.67 ATOM 395 NH1 ARG A 53 −2.148 10.182 −22.180 1.00 13.97 ATOM 396 NH2 ARG A 53 −1.590 12.151 −23.270 1.00 13.05 ATOM 397 C ARG A 53 −6.395 9.709 −26.319 1.00 12.45 ATOM 398 O ARG A 53 −7.558 9.289 −26.244 1.00 11.74 ATOM 399 N ASP A 54 −6.090 10.885 −26.874 1.00 11.73 ATOM 400 CA ASP A 54 −7.169 11.747 −27.385 1.00 11.90 ATOM 401 CB ASP A 54 −6.638 13.018 −28.053 1.00 12.25 ATOM 402 CG ASP A 54 −5.794 13.879 −27.120 1.00 13.97 ATOM 403 OD1 ASP A 54 −4.983 13.332 −26.354 1.00 13.57 ATOM 404 OD2 ASP A 54 −5.910 15.110 −27.215 1.00 13.88 ATOM 405 C ASP A 54 −8.002 11.005 −28.420 1.00 12.00 ATOM 406 O ASP A 54 −9.236 11.138 −28.454 1.00 10.97 ATOM 407 N SER A 55 −7.334 10.250 −29.297 1.00 11.19 ATOM 408 CA SER A 55 −8.034 9.544 −30.388 1.00 12.36 ATOM 409 CB SER A 55 −7.017 8.901 −31.340 1.00 13.05 ATOM 410 OG SER A 55 −6.171 9.930 −31.882 1.00 14.23 ATOM 411 C SER A 55 −8.996 8.489 −29.838 1.00 12.57 ATOM 412 O SER A 55 −10.130 8.348 −30.327 1.00 12.76 ATOM 413 N ALA A 56 −8.556 7.764 −28.819 1.00 12.60 ATOM 414 CA ALA A 56 −9.373 6.718 −28.218 1.00 13.25 ATOM 415 CB ALA A 56 −8.517 5.830 −27.329 1.00 12.73 ATOM 416 C ALA A 56 −10.551 7.301 −27.415 1.00 13.85 ATOM 417 O ALA A 56 −11.640 6.723 −27.409 1.00 14.51 ATOM 418 N LEU A 57 −10.328 8.420 −26.723 1.00 14.23 ATOM 419 CA LEU A 57 −11.417 9.059 −25.954 1.00 13.95 ATOM 420 CB LEU A 57 −10.891 10.186 −25.060 1.00 14.45 ATOM 421 CG LEU A 57 −10.088 9.751 −23.834 1.00 14.89 ATOM 422 CD1 LEU A 57 −9.507 11.013 −23.161 1.00 16.19 ATOM 423 CD2 LEU A 57 −10.919 8.911 −22.867 1.00 16.02 ATOM 424 C LEU A 57 −12.483 9.609 −26.886 1.00 13.92 ATOM 425 O LEU A 57 −13.685 9.488 −26.627 1.00 13.70 ATOM 426 N VAL A 58 −12.027 10.199 −27.975 1.00 13.15 ATOM 427 CA VAL A 58 −12.920 10.751 −28.989 1.00 15.20 ATOM 428 CB VAL A 58 −12.133 11.605 −30.031 1.00 14.52 ATOM 429 CG1 VAL A 58 −12.970 11.861 −31.302 1.00 17.86 ATOM 430 CG2 VAL A 58 −11.704 12.954 −29.393 1.00 15.79 ATOM 431 C VAL A 58 −13.704 9.624 −29.655 1.00 15.20 ATOM 432 O VAL A 58 −14.930 9.718 −29.784 1.00 15.30 ATOM 433 N PHE A 59 −13.026 8.553 −30.058 1.00 15.02 ATOM 434 CA PHE A 59 −13.766 7.477 −30.713 1.00 15.23 ATOM 435 CB PHE A 59 −12.882 6.601 −31.582 1.00 15.78 ATOM 436 CG PHE A 59 −12.859 7.058 −33.003 1.00 15.10 ATOM 437 CD1 PHE A 59 −11.872 7.927 −33.444 1.00 16.45 ATOM 438 CE1 PHE A 59 −11.861 8.401 −34.768 1.00 19.37 ATOM 439 CZ PHE A 59 −12.876 8.026 −35.644 1.00 16.44 ATOM 440 CE2 PHE A 59 −13.901 7.165 −35.186 1.00 16.90 ATOM 441 CD2 PHE A 59 −13.895 6.709 −33.882 1.00 16.17 ATOM 442 C PHE A 59 −14.674 6.681 −29.785 1.00 15.69 ATOM 443 O PHE A 59 −15.699 6.175 −30.220 1.00 15.46 ATOM 444 N LYS A 60 −14.321 6.586 −28.510 1.00 15.65 ATOM 445 CA LYS A 60 −15.257 5.994 −27.552 1.00 16.61 ATOM 446 CB LYS A 60 −14.661 5.954 −26.144 1.00 16.44 ATOM 447 CG LYS A 60 −15.626 5.363 −25.059 1.00 17.65 ATOM 448 CD LYS A 60 −16.174 3.992 −25.433 1.00 18.35 ATOM 449 CE LYS A 60 −16.738 3.234 −24.199 1.00 19.79 ATOM 450 NZ LYS A 60 −17.819 3.976 −23.512 1.00 18.40 ATOM 451 C LYS A 60 −16.577 6.779 −27.579 1.00 16.72 ATOM 452 O LYS A 60 −17.663 6.182 −27.681 1.00 17.08 ATOM 453 N ASN A 61 −16.487 8.101 −27.508 1.00 16.77 ATOM 454 CA ASN A 61 −17.680 8.948 −27.628 1.00 18.06 ATOM 455 CB ASN A 61 −17.278 10.424 −27.573 1.00 19.41 ATOM 456 CG ASN A 61 −18.465 11.375 −27.643 1.00 22.93 ATOM 457 OD1 ASN A 61 −19.585 11.057 −27.231 1.00 30.05 ATOM 458 ND2 ASN A 61 −18.206 12.568 −28.130 1.00 29.54 ATOM 459 C ASN A 61 −18.480 8.659 −28.907 1.00 17.28 ATOM 460 O ASN A 61 −19.697 8.475 −28.852 1.00 18.11 ATOM 461 N LEU A 62 −17.799 8.647 −30.056 1.00 16.54 ATOM 462 CA LEU A 62 −18.460 8.379 −31.334 1.00 16.19 ATOM 463 CB LEU A 62 −17.479 8.572 −32.499 1.00 16.85 ATOM 464 CG LEU A 62 −17.047 10.027 −32.697 1.00 18.47 ATOM 465 CD1 LEU A 62 −16.118 10.153 −33.916 1.00 20.38 ATOM 466 CD2 LEU A 62 −18.263 10.925 −32.837 1.00 19.93 ATOM 467 C LEU A 62 −19.089 6.991 −31.371 1.00 16.01 ATOM 468 O LEU A 62 −20.225 6.833 −31.842 1.00 15.98 ATOM 469 N ILE A 63 −18.387 5.998 −30.831 1.00 15.67 ATOM 470 CA ILE A 63 −18.910 4.628 −30.810 1.00 15.86 ATOM 471 CB ILE A 63 −17.803 3.610 −30.372 1.00 15.88 ATOM 472 CG1 ILE A 63 −16.756 3.466 −31.478 1.00 14.98 ATOM 473 CD1 ILE A 63 −15.375 2.976 −30.966 1.00 15.62 ATOM 474 CG2 ILE A 63 −18.398 2.251 −30.016 1.00 15.96 ATOM 475 C ILE A 63 −20.156 4.538 −29.920 1.00 16.39 ATOM 476 O ILE A 63 −21.137 3.854 −30.272 1.00 16.90 ATOM 477 N ASP A 64 −20.129 5.242 −28.796 1.00 16.51 ATOM 478 CA ASP A 64 −21.299 5.324 −27.922 1.00 17.76 ATOM 479 CB ASP A 64 −20.953 6.022 −26.594 1.00 17.81 ATOM 480 CG ASP A 64 −20.089 5.164 −25.682 1.00 17.84 ATOM 481 OD1 ASP A 64 −19.883 3.944 −25.963 1.00 18.57 ATOM 482 OD2 ASP A 64 −19.595 5.699 −24.659 1.00 20.95 ATOM 483 C ASP A 64 −22.492 5.982 −28.617 1.00 18.64 ATOM 484 O ASP A 64 −23.617 5.493 −28.507 1.00 20.85 ATOM 485 N ARG A 65 −22.262 7.070 −29.348 1.00 19.57 ATOM 486 CA ARG A 65 −23.341 7.750 −30.097 1.00 20.59 ATOM 487 CB ARG A 65 −22.823 9.046 −30.733 1.00 20.62 ATOM 488 CG ARG A 65 −22.465 10.083 −29.693 1.00 25.00 ATOM 489 CD ARG A 65 −22.010 11.385 −30.324 1.00 28.44 ATOM 490 NE ARG A 65 −23.106 12.071 −30.990 1.00 31.14 ATOM 491 CZ ARG A 65 −23.968 12.878 −30.373 1.00 32.75 ATOM 492 NH1 ARG A 65 −23.873 13.095 −29.060 1.00 32.10 ATOM 493 NH2 ARG A 65 −24.928 13.459 −31.080 1.00 32.31 ATOM 494 C ARG A 65 −23.907 6.841 −31.184 1.00 20.83 ATOM 495 O ARG A 65 −25.129 6.711 −31.357 1.00 20.48 ATOM 496 N PHE A 66 −22.998 6.213 −31.910 1.00 20.52 ATOM 497 CA PHE A 66 −23.340 5.271 −32.966 1.00 21.42 ATOM 498 CB PHE A 66 −22.046 4.778 −33.604 1.00 21.97 ATOM 499 CG PHE A 66 −22.224 3.603 −34.520 1.00 21.97 ATOM 500 CD1 PHE A 66 −22.601 3.791 −35.844 1.00 23.23 ATOM 501 CE1 PHE A 66 −22.768 2.690 −36.699 1.00 22.87 ATOM 502 CZ PHE A 66 −22.552 1.409 −36.221 1.00 22.60 ATOM 503 CE2 PHE A 66 −22.165 1.216 −34.895 1.00 23.74 ATOM 504 CD2 PHE A 66 −22.006 2.309 −34.054 1.00 23.07 ATOM 505 C PHE A 66 −24.152 4.084 −32.415 1.00 21.98 ATOM 506 O PHE A 66 −25.040 3.551 −33.099 1.00 21.80 ATOM 507 N THR A 67 −23.831 3.654 −31.195 1.00 22.48 ATOM 508 CA THR A 67 −24.546 2.537 −30.576 1.00 23.79 ATOM 509 CB THR A 67 −23.809 1.999 −29.333 1.00 23.68 ATOM 510 OG1 THR A 67 −22.551 1.439 −29.745 1.00 23.93 ATOM 511 CG2 THR A 67 −24.613 0.881 −28.653 1.00 23.90 ATOM 512 C THR A 67 −25.992 2.925 −30.258 1.00 24.77 ATOM 513 O THR A 67 −26.893 2.090 −30.349 1.00 25.31 ATOM 514 N GLU A 68 −26.207 4.189 −29.916 1.00 25.62 ATOM 515 CA GLU A 68 −27.540 4.688 −29.616 1.00 27.41 ATOM 516 CB GLU A 68 −27.466 6.038 −28.894 1.00 28.13 ATOM 517 CG GLU A 68 −26.997 5.951 −27.446 1.00 32.86 ATOM 518 CD GLU A 68 −28.095 5.487 −26.468 1.00 38.33 ATOM 519 OE1 GLU A 68 −29.241 5.982 −26.542 1.00 40.42 ATOM 520 OE2 GLU A 68 −27.799 4.633 −25.607 1.00 42.48 ATOM 521 C GLU A 68 −28.418 4.784 −30.873 1.00 27.86 ATOM 522 O GLU A 68 −29.602 4.429 −30.845 1.00 28.00 ATOM 523 N THR A 69 −27.833 5.260 −31.968 1.00 27.32 ATOM 524 CA THR A 69 −28.540 5.373 −33.241 1.00 27.32 ATOM 525 CB THR A 69 −29.113 6.792 −33.451 1.00 27.49 ATOM 526 OG1 THR A 69 −29.922 7.153 −32.334 1.00 30.86 ATOM 527 CG2 THR A 69 −29.945 6.843 −34.719 1.00 29.06 ATOM 528 C THR A 69 −27.563 5.133 −34.359 1.00 26.07 ATOM 529 O THR A 69 −26.619 5.905 −34.523 1.00 25.25 ATOM 530 N TYR A 70 −27.790 4.064 −35.123 1.00 25.65 ATOM 531 CA TYR A 70 −26.948 3.738 −36.267 1.00 25.36 ATOM 532 CB TYR A 70 −27.480 2.504 −37.013 1.00 25.26 ATOM 533 CG TYR A 70 −26.638 2.104 −38.217 1.00 25.62 ATOM 534 CD1 TYR A 70 −26.949 2.567 −39.498 1.00 25.62 ATOM 535 CE1 TYR A 70 −26.190 2.201 −40.611 1.00 26.48 ATOM 536 CZ TYR A 70 −25.099 1.360 −40.437 1.00 25.36 ATOM 537 OH TYR A 70 −24.354 0.995 −41.520 1.00 24.80 ATOM 538 CE2 TYR A 70 −24.770 0.883 −39.175 1.00 25.59 ATOM 539 CD2 TYR A 70 −25.538 1.259 −38.071 1.00 25.36 ATOM 540 C TYR A 70 −26.816 4.909 −37.230 1.00 25.38 ATOM 541 O TYR A 70 −27.802 5.573 −37.583 1.00 24.87 ATOM 542 N ASP A 71 −25.575 5.127 −37.666 1.00 25.16 ATOM 543 CA ASP A 71 −25.188 6.210 −38.550 1.00 25.40 ATOM 544 CB ASP A 71 −24.668 7.404 −37.724 1.00 25.60 ATOM 545 CG ASP A 71 −24.361 8.642 −38.573 1.00 26.17 ATOM 546 OD1 ASP A 71 −23.801 8.526 −39.681 1.00 25.82 ATOM 547 OD2 ASP A 71 −24.675 9.755 −38.108 1.00 27.85 ATOM 548 C ASP A 71 −24.061 5.619 −39.386 1.00 25.64 ATOM 549 O ASP A 71 −22.956 5.377 −38.875 1.00 24.82 ATOM 550 N ALA A 72 −24.347 5.379 −40.665 1.00 24.95 ATOM 551 CA ALA A 72 −23.380 4.764 −41.586 1.00 24.24 ATOM 552 CB ALA A 72 −24.047 4.434 −42.921 1.00 24.35 ATOM 553 C ALA A 72 −22.152 5.657 −41.812 1.00 24.04 ATOM 554 O ALA A 72 −21.054 5.159 −42.086 1.00 23.21 ATOM 555 N GLY A 73 −22.356 6.970 −41.695 1.00 23.63 ATOM 556 CA GLY A 73 −21.265 7.938 −41.761 1.00 24.20 ATOM 557 C GLY A 73 −20.285 7.809 −40.596 1.00 23.85 ATOM 558 O GLY A 73 −19.067 7.927 −40.806 1.00 24.81 ATOM 559 N LEU A 74 −20.798 7.588 −39.376 1.00 22.78 ATOM 560 CA LEU A 74 −19.927 7.347 −38.232 1.00 22.21 ATOM 561 CB LEU A 74 −20.662 7.449 −36.879 1.00 22.58 ATOM 562 CG LEU A 74 −21.132 8.846 −36.434 1.00 24.06 ATOM 563 CD1 LEU A 74 −21.732 8.793 −35.019 1.00 22.31 ATOM 564 CD2 LEU A 74 −20.002 9.869 −36.503 1.00 26.04 ATOM 565 C LEU A 74 −19.256 5.999 −38.370 1.00 21.94 ATOM 566 O LEU A 74 −18.060 5.872 −38.098 1.00 20.62 ATOM 567 N GLN A 75 −20.019 4.988 −38.814 1.00 21.47 ATOM 568 CA GLN A 75 −19.451 3.654 −38.989 1.00 21.07 ATOM 569 CB GLN A 75 −20.469 2.709 −39.619 1.00 21.44 ATOM 570 CG GLN A 75 −20.002 1.280 −39.594 1.00 23.11 ATOM 571 CD GLN A 75 −21.101 0.312 −39.945 1.00 24.74 ATOM 572 OE1 GLN A 75 −21.273 −0.719 −39.290 1.00 26.57 ATOM 573 NE2 GLN A 75 −21.872 0.654 −40.950 1.00 23.71 ATOM 574 C GLN A 75 −18.219 3.704 −39.889 1.00 21.05 ATOM 575 O GLN A 75 −17.229 3.046 −39.611 1.00 21.10 ATOM 576 N ARG A 76 −18.294 4.466 −40.975 1.00 20.73 ATOM 577 CA ARG A 76 −17.184 4.551 −41.910 1.00 21.56 ATOM 578 CB ARG A 76 −17.544 5.460 −43.101 1.00 22.06 ATOM 579 CG ARG A 76 −16.452 5.627 −44.168 1.00 24.00 ATOM 580 CD ARG A 76 −15.586 6.895 −43.934 1.00 27.60 ATOM 581 NE ARG A 76 −16.275 8.150 −44.280 1.00 30.93 ATOM 582 CZ ARG A 76 −15.778 9.378 −44.082 1.00 32.20 ATOM 583 NH1 ARG A 76 −14.572 9.556 −43.535 1.00 30.72 ATOM 584 NH2 ARG A 76 −16.491 10.443 −44.437 1.00 32.29 ATOM 585 C ARG A 76 −15.942 5.063 −41.162 1.00 20.85 ATOM 586 O ARG A 76 −14.858 4.514 −41.296 1.00 20.93 ATOM 587 N ARG A 77 −16.116 6.119 −40.378 1.00 20.17 ATOM 588 CA ARG A 77 −14.990 6.723 −39.631 1.00 19.61 ATOM 589 CB ARG A 77 −15.419 8.058 −39.009 1.00 19.11 ATOM 590 CG ARG A 77 −15.719 9.106 −40.075 1.00 20.18 ATOM 591 CD ARG A 77 −16.379 10.299 −39.459 1.00 22.42 ATOM 592 NE ARG A 77 −16.489 11.411 −40.396 1.00 24.06 ATOM 593 CZ ARG A 77 −17.501 11.592 −41.243 1.00 27.81 ATOM 594 NH1 ARG A 77 −18.508 10.714 −41.303 1.00 28.01 ATOM 595 NH2 ARG A 77 −17.509 12.658 −42.033 1.00 27.19 ATOM 596 C ARG A 77 −14.425 5.789 −38.570 1.00 18.77 ATOM 597 O ARG A 77 −13.197 5.685 −38.411 1.00 18.64 ATOM 598 N ILE A 78 −15.320 5.117 −37.852 1.00 17.79 ATOM 599 CA ILE A 78 −14.931 4.125 −36.857 1.00 18.13 ATOM 600 CB ILE A 78 −16.165 3.514 −36.151 1.00 17.88 ATOM 601 CG1 ILE A 78 −16.862 4.564 −35.282 1.00 18.78 ATOM 602 CD1 ILE A 78 −18.274 4.154 −34.879 1.00 19.16 ATOM 603 CG2 ILE A 78 −15.772 2.279 −35.308 1.00 18.15 ATOM 604 C ILE A 78 −14.105 3.012 −37.491 1.00 18.09 ATOM 605 O ILE A 78 −13.088 2.612 −36.949 1.00 17.42 ATOM 606 N GLU A 79 −14.565 2.495 −38.631 1.00 18.82 ATOM 607 CA GLU A 79 −13.826 1.446 −39.341 1.00 20.22 ATOM 608 CB GLU A 79 −14.587 1.017 −40.609 1.00 20.36 ATOM 609 CG GLU A 79 −15.811 0.136 −40.312 1.00 22.29 ATOM 610 CD GLU A 79 −16.633 −0.206 −41.565 1.00 22.92 ATOM 611 OE1 GLU A 79 −16.345 0.328 −42.670 1.00 26.99 ATOM 612 OE2 GLU A 79 −17.579 −1.012 −41.425 1.00 25.69 ATOM 613 C GLU A 79 −12.418 1.918 −39.704 1.00 18.80 ATOM 614 O GLU A 79 −11.450 1.191 −39.507 1.00 19.44 ATOM 615 N GLN A 80 −12.301 3.147 −40.211 1.00 18.84 ATOM 616 CA GLN A 80 −10.998 3.661 −40.636 1.00 17.90 ATOM 617 CB GLN A 80 −11.149 4.921 −41.482 1.00 18.92 ATOM 618 CG GLN A 80 −11.794 4.593 −42.844 1.00 21.99 ATOM 619 CD GLN A 80 −12.040 5.799 −43.707 1.00 27.48 ATOM 620 OE1 GLN A 80 −12.265 6.898 −43.223 1.00 30.45 ATOM 621 NE2 GLN A 80 −12.037 5.586 −45.013 1.00 32.63 ATOM 622 C GLN A 80 −10.059 3.892 −39.456 1.00 17.64 ATOM 623 O GLN A 80 −8.862 3.612 −39.535 1.00 17.21 ATOM 624 N TYR A 81 −10.607 4.408 −38.365 1.00 17.29 ATOM 625 CA TYR A 81 −9.839 4.552 −37.122 1.00 17.64 ATOM 626 CB TYR A 81 −10.750 5.139 −36.023 1.00 17.24 ATOM 627 CG TYR A 81 −10.188 4.973 −34.621 1.00 17.79 ATOM 628 CD1 TYR A 81 −9.085 5.728 −34.184 1.00 16.36 ATOM 629 CE1 TYR A 81 −8.561 5.568 −32.882 1.00 17.45 ATOM 630 CZ TYR A 81 −9.146 4.646 −32.009 1.00 16.35 ATOM 631 OH TYR A 81 −8.654 4.457 −30.724 1.00 17.06 ATOM 632 CE2 TYR A 81 −10.238 3.890 −32.423 1.00 17.51 ATOM 633 CD2 TYR A 81 −10.754 4.055 −33.729 1.00 17.00 ATOM 634 C TYR A 81 −9.271 3.197 −36.686 1.00 18.04 ATOM 635 O TYR A 81 −8.098 3.083 −36.321 1.00 17.85 ATOM 636 N ILE A 82 −10.096 2.159 −36.746 1.00 17.99 ATOM 637 CA ILE A 82 −9.661 0.839 −36.295 1.00 19.35 ATOM 638 CB ILE A 82 −10.844 −0.166 −36.187 1.00 18.93 ATOM 639 CG1 ILE A 82 −11.753 0.233 −35.017 1.00 19.40 ATOM 640 CD1 ILE A 82 −13.093 −0.565 −34.896 1.00 20.46 ATOM 641 CG2 ILE A 82 −10.301 −1.587 −35.984 1.00 20.61 ATOM 642 C ILE A 82 −8.547 0.292 −37.194 1.00 19.92 ATOM 643 O ILE A 82 −7.543 −0.239 −36.708 1.00 20.26 ATOM 644 N THR A 83 −8.713 0.432 −38.503 1.00 20.05 ATOM 645 CA THR A 83 −7.709 −0.100 −39.406 1.00 21.11 ATOM 646 CB THR A 83 −8.241 −0.297 −40.845 1.00 21.63 ATOM 647 OG1 THR A 83 −8.830 0.902 −41.306 1.00 25.88 ATOM 648 CG2 THR A 83 −9.330 −1.347 −40.851 1.00 21.56 ATOM 649 C THR A 83 −6.410 0.690 −39.337 1.00 20.59 ATOM 650 O THR A 83 −5.338 0.105 −39.511 1.00 20.72 ATOM 651 N ALA A 84 −6.494 1.997 −39.050 1.00 19.51 ATOM 652 CA ALA A 84 −5.292 2.809 −38.777 1.00 19.37 ATOM 653 CB ALA A 84 −5.652 4.290 −38.507 1.00 19.42 ATOM 654 C ALA A 84 −4.436 2.231 −37.643 1.00 19.32 ATOM 655 O ALA A 84 −3.208 2.370 −37.649 1.00 19.47 ATOM 656 N GLN A 85 −5.063 1.535 −36.695 1.00 19.34 ATOM 657 CA GLN A 85 −4.325 0.998 −35.544 1.00 18.78 ATOM 658 CB GLN A 85 −5.266 0.609 −34.396 1.00 19.29 ATOM 659 CG GLN A 85 −6.260 1.735 −34.007 1.00 17.98 ATOM 660 CD GLN A 85 −5.593 3.098 −33.830 1.00 17.20 ATOM 661 OE1 GLN A 85 −6.021 4.095 −34.418 1.00 20.82 ATOM 662 NE2 GLN A 85 −4.540 3.143 −33.034 1.00 13.47 ATOM 663 C GLN A 85 −3.447 −0.178 −35.932 1.00 19.08 ATOM 664 O GLN A 85 −2.478 −0.473 −35.251 1.00 17.94 ATOM 665 N VAL A 86 −3.808 −0.838 −37.032 1.00 19.32 ATOM 666 CA VAL A 86 −2.999 −1.928 −37.588 1.00 20.79 ATOM 667 CB VAL A 86 −3.670 −2.581 −38.823 1.00 21.18 ATOM 668 CG1 VAL A 86 −2.712 −3.615 −39.454 1.00 22.66 ATOM 669 CG2 VAL A 86 −4.980 −3.250 −38.400 1.00 21.47 ATOM 670 C VAL A 86 −1.617 −1.381 −37.940 1.00 20.63 ATOM 671 O VAL A 86 −0.602 −1.930 −37.520 1.00 21.41 ATOM 672 N THR A 87 −1.604 −0.251 −38.641 1.00 20.67 ATOM 673 CA THR A 87 −0.361 0.419 −39.015 1.00 21.10 ATOM 674 CB THR A 87 −0.659 1.583 −39.986 1.00 21.59 ATOM 675 OG1 THR A 87 −1.176 1.033 −41.202 1.00 23.63 ATOM 676 CG2 THR A 87 0.585 2.370 −40.305 1.00 22.02 ATOM 677 C THR A 87 0.412 0.881 −37.795 1.00 20.28 ATOM 678 O THR A 87 1.620 0.641 −37.679 1.00 20.22 ATOM 679 N LEU A 88 −0.280 1.543 −36.874 1.00 19.11 ATOM 680 CA LEU A 88 0.367 2.097 −35.697 1.00 18.71 ATOM 681 CB LEU A 88 −0.585 3.015 −34.903 1.00 18.08 ATOM 682 CG LEU A 88 −1.016 4.294 −35.596 1.00 18.50 ATOM 683 CD1 LEU A 88 −2.038 5.058 −34.706 1.00 19.12 ATOM 684 CD2 LEU A 88 0.206 5.193 −35.937 1.00 19.81 ATOM 685 C LEU A 88 0.976 1.057 −34.780 1.00 18.33 ATOM 686 O LEU A 88 2.101 1.244 −34.336 1.00 18.76 ATOM 687 N GLN A 89 0.255 −0.029 −34.492 1.00 18.75 ATOM 688 CA GLN A 89 0.809 −1.085 −33.623 1.00 19.67 ATOM 689 CB GLN A 89 −0.199 −2.201 −33.373 1.00 19.69 ATOM 690 CG GLN A 89 −1.397 −1.775 −32.564 1.00 19.25 ATOM 691 CD GLN A 89 −2.140 −2.951 −32.004 1.00 20.83 ATOM 692 OE1 GLN A 89 −2.121 −4.037 −32.580 1.00 19.26 ATOM 693 NE2 GLN A 89 −2.802 −2.751 −30.861 1.00 19.61 ATOM 694 C GLN A 89 2.097 −1.683 −34.203 1.00 20.68 ATOM 695 O GLN A 89 3.013 −2.026 −33.461 1.00 21.21 ATOM 696 N GLY A 90 2.164 −1.778 −35.524 1.00 21.75 ATOM 697 CA GLY A 90 3.330 −2.374 −36.173 1.00 23.35 ATOM 698 C GLY A 90 4.604 −1.552 −36.096 1.00 24.79 ATOM 699 O GLY A 90 5.699 −2.104 −36.299 1.00 25.52 ATOM 700 N ASN A 91 4.477 −0.252 −35.796 1.00 25.17 ATOM 701 CA ASN A 91 5.596 0.714 −35.870 1.00 26.14 ATOM 702 CB ASN A 91 5.108 2.161 −35.653 1.00 26.83 ATOM 703 CG ASN A 91 4.615 2.849 −36.919 1.00 29.67 ATOM 704 OD1 ASN A 91 4.869 2.414 −38.051 1.00 34.53 ATOM 705 ND2 ASN A 91 3.927 3.981 −36.724 1.00 32.76 ATOM 706 C ASN A 91 6.656 0.489 −34.820 1.00 25.67 ATOM 707 O ASN A 91 6.346 0.385 −33.644 1.00 25.70 ATOM 708 N SER A 92 7.918 0.472 −35.227 1.00 25.32 ATOM 709 CA SER A 92 8.990 0.668 −34.257 1.00 25.27 ATOM 710 CB SER A 92 10.314 0.107 −34.775 1.00 26.03 ATOM 711 OG SER A 92 10.212 −1.305 −34.803 1.00 30.67 ATOM 712 C SER A 92 9.103 2.171 −34.003 1.00 23.80 ATOM 713 O SER A 92 9.055 2.979 −34.942 1.00 24.56 ATOM 714 N ASN A 93 9.246 2.544 −32.743 1.00 22.30 ATOM 715 CA ASN A 93 9.236 3.953 −32.383 1.00 21.23 ATOM 716 CB ASN A 93 7.769 4.423 −32.201 1.00 21.41 ATOM 717 CG ASN A 93 7.075 3.704 −31.051 1.00 19.23 ATOM 718 OD1 ASN A 93 7.564 3.736 −29.927 1.00 17.81 ATOM 719 ND2 ASN A 93 5.974 3.024 −31.335 1.00 19.43 ATOM 720 C ASN A 93 10.103 4.149 −31.150 1.00 20.39 ATOM 721 O ASN A 93 10.625 3.154 −30.607 1.00 19.46 ATOM 722 N PRO A 94 10.337 5.410 −30.732 1.00 19.95 ATOM 723 CA PRO A 94 11.228 5.604 −29.574 1.00 19.89 ATOM 724 CB PRO A 94 11.235 7.131 −29.385 1.00 19.51 ATOM 725 CG PRO A 94 10.988 7.653 −30.753 1.00 19.96 ATOM 726 CD PRO A 94 9.952 6.717 −31.325 1.00 19.99 ATOM 727 C PRO A 94 10.870 4.898 −28.263 1.00 20.64 ATOM 728 O PRO A 94 11.756 4.727 −27.430 1.00 20.54 ATOM 729 N SER A 95 9.610 4.485 −28.073 1.00 20.36 ATOM 730 CA SER A 95 9.264 3.674 −26.902 1.00 21.00 ATOM 731 CB SER A 95 7.770 3.736 −26.587 1.00 20.05 ATOM 732 OG SER A 95 7.413 5.036 −26.147 1.00 19.97 ATOM 733 C SER A 95 9.679 2.204 −27.066 1.00 21.73 ATOM 734 O SER A 95 9.809 1.499 −26.072 1.00 22.10 ATOM 735 N GLY A 96 9.853 1.748 −28.306 1.00 21.90 ATOM 736 CA GLY A 96 10.229 0.350 −28.562 1.00 23.56 ATOM 737 C GLY A 96 9.506 −0.196 −29.774 1.00 24.14 ATOM 738 O GLY A 96 9.121 0.557 −30.664 1.00 24.24 ATOM 739 N SER A 97 9.315 −1.510 −29.828 1.00 25.24 ATOM 740 CA SER A 97 8.703 −2.116 −31.000 1.00 25.77 ATOM 741 CB SER A 97 9.751 −2.874 −31.834 1.00 27.15 ATOM 742 OG SER A 97 10.120 −4.086 −31.189 1.00 30.57 ATOM 743 C SER A 97 7.590 −3.042 −30.571 1.00 25.27 ATOM 744 O SER A 97 7.346 −3.199 −29.376 1.00 24.85 ATOM 745 N LEU A 98 6.930 −3.655 −31.543 1.00 24.82 ATOM 746 CA LEU A 98 5.826 −4.559 −31.252 1.00 25.88 ATOM 747 CB LEU A 98 4.982 −4.813 −32.504 1.00 25.31 ATOM 748 CG LEU A 98 3.714 −5.673 −32.420 1.00 25.89 ATOM 749 CD1 LEU A 98 2.745 −5.169 −31.337 1.00 25.58 ATOM 750 CD2 LEU A 98 3.006 −5.724 −33.778 1.00 26.27 ATOM 751 C LEU A 98 6.310 −5.866 −30.604 1.00 26.75 ATOM 752 O LEU A 98 5.607 −6.438 −29.762 1.00 27.41 ATOM 753 N ALA A 99 7.528 −6.290 −30.950 1.00 27.23 ATOM 754 CA ALA A 99 8.074 −7.590 −30.533 1.00 27.89 ATOM 755 CB ALA A 99 9.566 −7.700 −30.935 1.00 27.68 ATOM 756 C ALA A 99 7.893 −7.911 −29.053 1.00 27.86 ATOM 757 O ALA A 99 7.450 −9.007 −28.711 1.00 28.77 ATOM 758 N ASP A 100 8.241 −6.966 −28.181 1.00 27.75 ATOM 759 CA ASP A 100 8.030 −7.137 −26.741 1.00 27.20 ATOM 760 CB ASP A 100 9.328 −6.937 −25.966 1.00 27.10 ATOM 761 CG ASP A 100 9.845 −5.525 −26.038 1.00 30.19 ATOM 762 OD1 ASP A 100 10.891 −5.281 −25.419 1.00 32.28 ATOM 763 OD2 ASP A 100 9.225 −4.654 −26.694 1.00 30.36 ATOM 764 C ASP A 100 6.905 −6.256 −26.173 1.00 25.74 ATOM 765 O ASP A 100 6.761 −6.108 −24.956 1.00 26.33 ATOM 766 N GLY A 101 6.118 −5.683 −27.075 1.00 24.93 ATOM 767 CA GLY A 101 4.982 −4.853 −26.707 1.00 23.22 ATOM 768 C GLY A 101 5.326 −3.418 −26.342 1.00 22.68 ATOM 769 O GLY A 101 4.419 −2.580 −26.287 1.00 21.48 ATOM 770 N SER A 102 6.609 −3.117 −26.126 1.00 21.53 ATOM 771 CA SER A 102 6.996 −1.815 −25.563 1.00 21.49 ATOM 772 CB SER A 102 8.483 −1.739 −25.199 1.00 22.07 ATOM 773 OG SER A 102 9.283 −1.958 −26.345 1.00 21.77 ATOM 774 C SER A 102 6.604 −0.643 −26.449 1.00 20.66 ATOM 775 O SER A 102 6.279 0.403 −25.925 1.00 20.67 ATOM 776 N GLY A 103 6.636 −0.819 −27.771 1.00 19.97 ATOM 777 CA GLY A 103 6.257 0.255 −28.707 1.00 19.46 ATOM 778 C GLY A 103 4.824 0.777 −28.539 1.00 18.94 ATOM 779 O GLY A 103 4.525 1.903 −28.945 1.00 18.13 ATOM 780 N LEU A 104 3.939 −0.043 −27.956 1.00 18.13 ATOM 781 CA LEU A 104 2.517 0.326 −27.818 1.00 16.92 ATOM 782 CB LEU A 104 1.672 −0.924 −27.447 1.00 17.28 ATOM 783 CG LEU A 104 1.715 −2.104 −28.430 1.00 16.76 ATOM 784 CD1 LEU A 104 1.072 −3.356 −27.836 1.00 21.62 ATOM 785 CD2 LEU A 104 1.069 −1.751 −29.761 1.00 19.06 ATOM 786 C LEU A 104 2.283 1.464 −26.798 1.00 16.57 ATOM 787 O LEU A 104 1.202 2.092 −26.807 1.00 16.79 ATOM 788 N GLY A 105 3.279 1.713 −25.936 1.00 14.86 ATOM 789 CA GLY A 105 3.255 2.802 −24.938 1.00 15.94 ATOM 790 C GLY A 105 3.558 4.199 −25.482 1.00 15.05 ATOM 791 O GLY A 105 3.481 5.179 −24.755 1.00 15.93 ATOM 792 N GLU A 106 3.869 4.292 −26.780 1.00 14.63 ATOM 793 CA GLU A 106 4.236 5.548 −27.416 1.00 14.49 ATOM 794 CB GLU A 106 4.728 5.250 −28.847 1.00 13.83 ATOM 795 CG GLU A 106 5.215 6.470 −29.678 1.00 16.14 ATOM 796 CD GLU A 106 6.479 7.155 −29.139 1.00 18.44 ATOM 797 OE1 GLU A 106 6.978 6.817 −28.044 1.00 21.44 ATOM 798 OE2 GLU A 106 6.972 8.083 −29.817 1.00 21.04 ATOM 799 C GLU A 106 3.012 6.484 −27.413 1.00 14.32 ATOM 800 O GLU A 106 1.928 6.074 −27.828 1.00 15.51 ATOM 801 N PRO A 107 3.164 7.706 −26.890 1.00 15.21 ATOM 802 CA PRO A 107 2.025 8.645 −26.772 1.00 14.90 ATOM 803 CB PRO A 107 2.598 9.809 −25.951 1.00 15.27 ATOM 804 CG PRO A 107 3.833 9.290 −25.310 1.00 17.25 ATOM 805 CD PRO A 107 4.385 8.238 −26.243 1.00 14.35 ATOM 806 C PRO A 107 1.468 9.219 −28.066 1.00 14.48 ATOM 807 O PRO A 107 0.263 9.371 −28.172 1.00 13.94 ATOM 808 N LYS A 108 2.320 9.567 −29.027 1.00 14.24 ATOM 809 CA LYS A 108 1.837 10.309 −30.204 1.00 14.51 ATOM 810 CB LYS A 108 1.853 11.828 −29.960 1.00 14.26 ATOM 811 CG LYS A 108 3.225 12.524 −30.029 1.00 13.88 ATOM 812 CD LYS A 108 3.102 14.033 −29.775 1.00 15.15 ATOM 813 CE LYS A 108 4.299 14.820 −30.283 1.00 17.08 ATOM 814 NZ LYS A 108 4.341 16.279 −29.836 1.00 15.57 ATOM 815 C LYS A 108 2.608 9.953 −31.454 1.00 14.69 ATOM 816 O LYS A 108 3.734 9.442 −31.377 1.00 14.67 ATOM 817 N PHE A 109 1.976 10.203 −32.594 1.00 14.54 ATOM 818 CA PHE A 109 2.530 9.860 −33.902 1.00 15.20 ATOM 819 CB PHE A 109 1.839 8.594 −34.451 1.00 15.67 ATOM 820 CG PHE A 109 1.973 7.407 −33.553 1.00 16.81 ATOM 821 CD1 PHE A 109 1.081 7.219 −32.490 1.00 17.93 ATOM 822 CE1 PHE A 109 1.205 6.117 −31.649 1.00 21.93 ATOM 823 CZ PHE A 109 2.241 5.210 −31.834 1.00 19.06 ATOM 824 CE2 PHE A 109 3.141 5.384 −32.883 1.00 20.27 ATOM 825 CD2 PHE A 109 3.003 6.492 −33.737 1.00 19.44 ATOM 826 C PHE A 109 2.301 10.992 −34.881 1.00 15.19 ATOM 827 O PHE A 109 1.450 11.861 −34.655 1.00 14.41 ATOM 828 N GLU A 110 3.039 10.971 −35.993 1.00 15.14 ATOM 829 CA GLU A 110 2.756 11.905 −37.077 1.00 15.24 ATOM 830 CB GLU A 110 3.905 11.933 −38.103 1.00 15.00 ATOM 831 CG GLU A 110 5.302 12.204 −37.493 1.00 16.29 ATOM 832 CD GLU A 110 5.554 13.673 −37.174 1.00 17.52 ATOM 833 OE1 GLU A 110 4.708 14.544 −37.504 1.00 17.65 ATOM 834 OE2 GLU A 110 6.619 13.963 −36.587 1.00 18.74 ATOM 835 C GLU A 110 1.462 11.476 −37.762 1.00 15.32 ATOM 836 O GLU A 110 1.093 10.278 −37.753 1.00 15.26 ATOM 837 N LEU A 111 0.776 12.445 −38.360 1.00 15.59 ATOM 838 CA LEU A 111 −0.522 12.186 −39.009 1.00 16.33 ATOM 839 CB LEU A 111 −1.265 13.510 −39.163 1.00 16.57 ATOM 840 CG LEU A 111 −1.770 13.908 −37.756 1.00 18.11 ATOM 841 CD1 LEU A 111 −1.819 15.405 −37.574 1.00 21.43 ATOM 842 CD2 LEU A 111 −3.151 13.204 −37.506 1.00 18.74 ATOM 843 C LEU A 111 −0.409 11.436 −40.350 1.00 17.37 ATOM 844 O LEU A 111 −1.426 11.023 −40.944 1.00 17.23 ATOM 845 N THR A 112 0.833 11.258 −40.815 1.00 17.42 ATOM 846 CA THR A 112 1.144 10.301 −41.887 1.00 17.92 ATOM 847 CB THR A 112 2.512 10.619 −42.499 1.00 17.98 ATOM 848 OG1 THR A 112 3.476 10.702 −41.445 1.00 18.32 ATOM 849 CG2 THR A 112 2.486 11.945 −43.228 1.00 19.47 ATOM 850 C THR A 112 1.215 8.846 −41.356 1.00 18.90 ATOM 851 O THR A 112 1.535 7.917 −42.117 1.00 17.68 ATOM 852 N LEU A 113 0.944 8.664 −40.055 1.00 18.48 ATOM 853 CA LEU A 113 1.041 7.379 −39.348 1.00 19.78 ATOM 854 CB LEU A 113 0.061 6.319 −39.904 1.00 19.45 ATOM 855 CG LEU A 113 −1.411 6.699 −40.074 1.00 21.71 ATOM 856 CD1 LEU A 113 −2.194 5.470 −40.477 1.00 23.46 ATOM 857 CD2 LEU A 113 −2.005 7.323 −38.800 1.00 21.59 ATOM 858 C LEU A 113 2.481 6.866 −39.338 1.00 20.43 ATOM 859 O LEU A 113 2.737 5.704 −39.653 1.00 20.96 ATOM 860 N LYS A 114 3.406 7.769 −39.024 1.00 20.07 ATOM 861 CA LYS A 114 4.826 7.460 −38.863 1.00 20.25 ATOM 862 CB LYS A 114 5.662 8.209 −39.899 1.00 20.95 ATOM 863 CG LYS A 114 5.432 7.725 −41.314 1.00 25.23 ATOM 864 CD LYS A 114 6.636 8.059 −42.184 1.00 33.76 ATOM 865 CE LYS A 114 6.551 7.360 −43.537 1.00 38.31 ATOM 866 NZ LYS A 114 5.285 7.711 −44.251 1.00 41.29 ATOM 867 C LYS A 114 5.252 7.874 −37.471 1.00 19.64 ATOM 868 O LYS A 114 4.576 8.708 −36.845 1.00 19.39 ATOM 869 N PRO A 115 6.376 7.318 −36.973 1.00 19.06 ATOM 870 CA PRO A 115 6.750 7.626 −35.601 1.00 18.72 ATOM 871 CB PRO A 115 7.963 6.712 −35.326 1.00 19.82 ATOM 872 CG PRO A 115 8.101 5.814 −36.500 1.00 20.93 ATOM 873 CD PRO A 115 7.339 6.412 −37.639 1.00 19.08 ATOM 874 C PRO A 115 7.156 9.093 −35.434 1.00 18.70 ATOM 875 O PRO A 115 7.694 9.724 −36.375 1.00 17.25 ATOM 876 N PHE A 116 6.844 9.628 −34.256 1.00 18.55 ATOM 877 CA PHE A 116 7.342 10.918 −33.805 1.00 18.27 ATOM 878 CB PHE A 116 6.359 11.566 −32.809 1.00 18.41 ATOM 879 CG PHE A 116 6.908 12.804 −32.151 1.00 17.33 ATOM 880 CD1 PHE A 116 6.942 14.014 −32.847 1.00 16.98 ATOM 881 CE1 PHE A 116 7.457 15.173 −32.254 1.00 16.22 ATOM 882 CZ PHE A 116 7.950 15.138 −30.935 1.00 15.88 ATOM 883 CE2 PHE A 116 7.902 13.917 −30.216 1.00 16.74 ATOM 884 CD2 PHE A 116 7.380 12.767 −30.825 1.00 16.05 ATOM 885 C PHE A 116 8.701 10.695 −33.141 1.00 19.14 ATOM 886 O PHE A 116 8.808 9.987 −32.134 1.00 19.66 ATOM 887 N THR A 117 9.746 11.299 −33.713 1.00 19.53 ATOM 888 CA THR A 117 11.116 11.020 −33.315 1.00 20.15 ATOM 889 CB THR A 117 12.042 10.999 −34.567 1.00 20.83 ATOM 890 OG1 THR A 117 11.988 12.277 −35.222 1.00 22.59 ATOM 891 CG2 THR A 117 11.576 9.895 −35.557 1.00 21.40 ATOM 892 C THR A 117 11.685 11.969 −32.263 1.00 20.34 ATOM 893 O THR A 117 12.813 11.768 −31.774 1.00 21.13 ATOM 894 N GLY A 118 10.943 13.017 −31.914 1.00 19.25 ATOM 895 CA GLY A 118 11.451 14.018 −30.974 1.00 19.41 ATOM 896 C GLY A 118 11.431 13.498 −29.541 1.00 19.75 ATOM 897 O GLY A 118 10.913 12.397 −29.281 1.00 19.99 ATOM 898 N ASN A 119 11.998 14.279 −28.622 1.00 19.56 ATOM 899 CA ASN A 119 11.958 13.954 −27.198 1.00 20.41 ATOM 900 CB ASN A 119 12.961 14.801 −26.419 1.00 21.50 ATOM 901 CG ASN A 119 14.377 14.612 −26.930 1.00 25.14 ATOM 902 OD1 ASN A 119 14.779 13.500 −27.294 1.00 30.77 ATOM 903 ND2 ASN A 119 15.131 15.693 −26.987 1.00 31.23 ATOM 904 C ASN A 119 10.550 14.194 −26.696 1.00 20.06 ATOM 905 O ASN A 119 9.881 15.089 −27.167 1.00 19.00 ATOM 906 N TRP A 120 10.084 13.348 −25.787 1.00 19.74 ATOM 907 CA TRP A 120 8.707 13.466 −25.316 1.00 19.03 ATOM 908 CB TRP A 120 7.717 12.917 −26.359 1.00 18.71 ATOM 909 CG TRP A 120 6.351 13.522 −26.162 1.00 19.76 ATOM 910 CD1 TRP A 120 5.239 12.901 −25.673 1.00 19.81 ATOM 911 NE1 TRP A 120 4.186 13.799 −25.593 1.00 19.49 ATOM 912 CE2 TRP A 120 4.612 15.021 −26.042 1.00 19.44 ATOM 913 CD2 TRP A 120 5.975 14.886 −26.410 1.00 19.35 ATOM 914 CE3 TRP A 120 6.657 16.014 −26.895 1.00 18.94 ATOM 915 CZ3 TRP A 120 5.959 17.220 −27.010 1.00 20.22 ATOM 916 CH2 TRP A 120 4.602 17.315 −26.628 1.00 20.15 ATOM 917 CZ2 TRP A 120 3.918 16.233 −26.160 1.00 18.83 ATOM 918 C TRP A 120 8.602 12.685 −24.001 1.00 18.80 ATOM 919 O TRP A 120 9.454 11.833 −23.722 1.00 18.83 ATOM 920 N GLY A 121 7.593 12.990 −23.189 1.00 17.91 ATOM 921 CA GLY A 121 7.314 12.189 −21.988 1.00 17.64 ATOM 922 C GLY A 121 6.721 10.834 −22.362 1.00 18.93 ATOM 923 O GLY A 121 5.499 10.704 −22.487 1.00 18.99 ATOM 924 N ARG A 122 7.589 9.828 −22.536 1.00 17.95 ATOM 925 CA ARG A 122 7.195 8.483 −22.958 1.00 17.86 ATOM 926 CB ARG A 122 7.686 8.193 −24.394 1.00 17.37 ATOM 927 CG ARG A 122 9.181 8.529 −24.626 1.00 19.53 ATOM 928 CD ARG A 122 9.689 7.987 −25.969 1.00 17.88 ATOM 929 NE ARG A 122 9.012 8.549 −27.159 1.00 18.08 ATOM 930 CZ ARG A 122 9.425 9.645 −27.807 1.00 18.06 ATOM 931 NH1 ARG A 122 10.477 10.326 −27.366 1.00 16.88 ATOM 932 NH2 ARG A 122 8.784 10.074 −28.892 1.00 17.35 ATOM 933 C ARG A 122 7.799 7.450 −21.976 1.00 17.48 ATOM 934 O ARG A 122 8.848 7.697 −21.396 1.00 17.69 ATOM 935 N PRO A 123 7.142 6.298 −21.781 1.00 17.14 ATOM 936 CA PRO A 123 5.886 5.916 −22.382 1.00 16.01 ATOM 937 CB PRO A 123 5.908 4.385 −22.266 1.00 16.51 ATOM 938 CG PRO A 123 6.585 4.144 −20.969 1.00 16.30 ATOM 939 CD PRO A 123 7.658 5.238 −20.873 1.00 16.95 ATOM 940 C PRO A 123 4.716 6.494 −21.581 1.00 15.29 ATOM 941 O PRO A 123 4.926 7.057 −20.521 1.00 15.07 ATOM 942 N GLN A 124 3.504 6.362 −22.120 1.00 14.60 ATOM 943 CA GLN A 124 2.289 6.675 −21.386 1.00 14.40 ATOM 944 CB GLN A 124 1.602 7.889 −22.001 1.00 14.71 ATOM 945 CG GLN A 124 2.442 9.186 −21.711 1.00 11.93 ATOM 946 CD GLN A 124 1.993 10.407 −22.472 1.00 15.67 ATOM 947 OE1 GLN A 124 2.807 11.310 −22.758 1.00 15.75 ATOM 948 NE2 GLN A 124 0.718 10.450 −22.822 1.00 9.85 ATOM 949 C GLN A 124 1.441 5.421 −21.511 1.00 14.28 ATOM 950 O GLN A 124 0.988 5.095 −22.604 1.00 14.63 ATOM 951 N ARG A 125 1.241 4.731 −20.390 1.00 13.50 ATOM 952 CA ARG A 125 0.700 3.382 −20.398 1.00 13.96 ATOM 953 CB ARG A 125 1.331 2.567 −19.256 1.00 14.28 ATOM 954 CG ARG A 125 2.864 2.703 −19.249 1.00 15.16 ATOM 955 CD ARG A 125 3.503 1.577 −18.439 1.00 18.07 ATOM 956 NE ARG A 125 4.924 1.827 −18.132 1.00 17.46 ATOM 957 CZ ARG A 125 5.944 1.334 −18.833 1.00 19.43 ATOM 958 NH1 ARG A 125 5.728 0.601 −19.925 1.00 20.02 ATOM 959 NH2 ARG A 125 7.197 1.596 −18.453 1.00 18.94 ATOM 960 C ARG A 125 −0.829 3.335 −20.359 1.00 14.48 ATOM 961 O ARG A 125 −1.424 2.262 −20.343 1.00 14.40 ATOM 962 N ASP A 126 −1.462 4.509 −20.374 1.00 14.03 ATOM 963 CA ASP A 126 −2.919 4.568 −20.542 1.00 13.39 ATOM 964 CB ASP A 126 −3.488 5.922 −20.067 1.00 13.17 ATOM 965 CG ASP A 126 −2.926 7.092 −20.845 1.00 14.17 ATOM 966 OD1 ASP A 126 −1.713 7.108 −21.143 1.00 12.29 ATOM 967 OD2 ASP A 126 −3.705 8.003 −21.187 1.00 16.69 ATOM 968 C ASP A 126 −3.350 4.306 −21.974 1.00 13.60 ATOM 969 O ASP A 126 −4.452 3.806 −22.189 1.00 13.56 ATOM 970 N GLY A 127 −2.491 4.634 −22.948 1.00 12.78 ATOM 971 CA GLY A 127 −2.886 4.558 −24.358 1.00 13.20 ATOM 972 C GLY A 127 −3.473 3.213 −24.794 1.00 12.77 ATOM 973 O GLY A 127 −4.579 3.150 −25.327 1.00 12.56 ATOM 974 N PRO A 128 −2.720 2.120 −24.613 1.00 13.94 ATOM 975 CA PRO A 128 −3.262 0.810 −24.978 1.00 12.97 ATOM 976 CB PRO A 128 −2.135 −0.162 −24.552 1.00 14.15 ATOM 977 CG PRO A 128 −0.907 0.656 −24.721 1.00 14.39 ATOM 978 CD PRO A 128 −1.323 2.010 −24.150 1.00 13.67 ATOM 979 C PRO A 128 −4.571 0.455 −24.255 1.00 13.30 ATOM 980 O PRO A 128 −5.433 −0.161 −24.869 1.00 13.72 ATOM 981 N ALA A 129 −4.718 0.852 −22.985 1.00 12.95 ATOM 982 CA ALA A 129 −5.963 0.611 −22.258 1.00 13.49 ATOM 983 CB ALA A 129 −5.806 1.016 −20.808 1.00 13.00 ATOM 984 C ALA A 129 −7.162 1.329 −22.923 1.00 13.43 ATOM 985 O ALA A 129 −8.217 0.721 −23.159 1.00 13.26 ATOM 986 N LEU A 130 −6.998 2.619 −23.221 1.00 12.51 ATOM 987 CA LEU A 130 −8.068 3.409 −23.813 1.00 12.69 ATOM 988 CB LEU A 130 −7.678 4.903 −23.806 1.00 12.56 ATOM 989 CG LEU A 130 −7.458 5.555 −22.426 1.00 14.76 ATOM 990 CD1 LEU A 130 −6.959 6.991 −22.643 1.00 15.23 ATOM 991 CD2 LEU A 130 −8.776 5.544 −21.651 1.00 15.30 ATOM 992 C LEU A 130 −8.410 2.934 −25.228 1.00 12.78 ATOM 993 O LEU A 130 −9.571 2.863 −25.607 1.00 12.83 ATOM 994 N ARG A 131 −7.386 2.601 −26.015 1.00 13.70 ATOM 995 CA ARG A 131 −7.630 2.070 −27.351 1.00 14.52 ATOM 996 CB ARG A 131 −6.316 1.925 −28.135 1.00 14.04 ATOM 997 CG ARG A 131 −6.550 1.438 −29.566 1.00 15.60 ATOM 998 CD ARG A 131 −5.278 1.522 −30.428 1.00 15.59 ATOM 999 NE ARG A 131 −4.118 0.915 −29.779 1.00 16.77 ATOM 1000 CZ ARG A 131 −2.860 1.205 −30.098 1.00 16.26 ATOM 1001 NH1 ARG A 131 −2.610 2.104 −31.054 1.00 16.37 ATOM 1002 NH2 ARG A 131 −1.856 0.618 −29.448 1.00 15.96 ATOM 1003 C ARG A 131 −8.408 0.729 −27.283 1.00 14.44 ATOM 1004 O ARG A 131 −9.350 0.533 −28.050 1.00 15.71 ATOM 1005 N ALA A 132 −8.025 −0.164 −26.364 1.00 14.50 ATOM 1006 CA ALA A 132 −8.738 −1.456 −26.195 1.00 15.06 ATOM 1007 CB ALA A 132 −8.069 −2.348 −25.112 1.00 15.02 ATOM 1008 C ALA A 132 −10.194 −1.197 −25.846 1.00 15.43 ATOM 1009 O ALA A 132 −11.101 −1.808 −26.416 1.00 15.57 ATOM 1010 N ILE A 133 −10.418 −0.270 −24.915 1.00 15.70 ATOM 1011 CA ILE A 133 −11.777 0.049 −24.491 1.00 14.44 ATOM 1012 CB ILE A 133 −11.775 1.056 −23.335 1.00 14.07 ATOM 1013 CG1 ILE A 133 −11.268 0.387 −22.046 1.00 15.40 ATOM 1014 CD1 ILE A 133 −10.751 1.388 −21.017 1.00 16.66 ATOM 1015 CG2 ILE A 133 −13.176 1.702 −23.101 1.00 13.98 ATOM 1016 C ILE A 133 −12.633 0.517 −25.679 1.00 14.36 ATOM 1017 O ILE A 133 −13.781 0.102 −25.807 1.00 14.69 ATOM 1018 N ALA A 134 −12.079 1.362 −26.545 1.00 13.69 ATOM 1019 CA ALA A 134 −12.819 1.832 −27.720 1.00 13.81 ATOM 1020 CB ALA A 134 −12.019 2.949 −28.452 1.00 13.99 ATOM 1021 C ALA A 134 −13.140 0.662 −28.657 1.00 14.62 ATOM 1022 O ALA A 134 −14.279 0.473 −29.087 1.00 14.90 ATOM 1023 N LEU A 135 −12.133 −0.155 −28.947 1.00 14.66 ATOM 1024 CA LEU A 135 −12.328 −1.251 −29.901 1.00 15.75 ATOM 1025 CB LEU A 135 −10.984 −1.875 −30.311 1.00 15.75 ATOM 1026 CG LEU A 135 −10.348 −1.231 −31.557 1.00 16.40 ATOM 1027 CD1 LEU A 135 −10.257 0.308 −31.471 1.00 18.56 ATOM 1028 CD2 LEU A 135 −8.980 −1.852 −31.804 1.00 17.85 ATOM 1029 C LEU A 135 −13.277 −2.306 −29.340 1.00 15.13 ATOM 1030 O LEU A 135 −14.079 −2.845 −30.087 1.00 15.84 ATOM 1031 N ILE A 136 −13.192 −2.573 −28.039 1.00 15.22 ATOM 1032 CA ILE A 136 −14.153 −3.473 −27.377 1.00 15.71 ATOM 1033 CB ILE A 136 −13.734 −3.829 −25.918 1.00 15.92 ATOM 1034 CG1 ILE A 136 −12.408 −4.598 −25.904 1.00 15.39 ATOM 1035 CD1 ILE A 136 −11.742 −4.679 −24.497 1.00 15.63 ATOM 1036 CG2 ILE A 136 −14.842 −4.611 −25.204 1.00 16.20 ATOM 1037 C ILE A 136 −15.565 −2.902 −27.457 1.00 17.10 ATOM 1038 O ILE A 136 −16.531 −3.631 −27.728 1.00 17.48 ATOM 1039 N GLY A 137 −15.685 −1.581 −27.297 1.00 16.46 ATOM 1040 CA GLY A 137 −16.979 −0.902 −27.484 1.00 16.59 ATOM 1041 C GLY A 137 −17.600 −1.206 −28.833 1.00 17.13 ATOM 1042 O GLY A 137 −18.778 −1.605 −28.920 1.00 16.92 ATOM 1043 N TYR A 138 −16.817 −1.056 −29.898 1.00 16.61 ATOM 1044 CA TYR A 138 −17.353 −1.349 −31.224 1.00 17.93 ATOM 1045 CB TYR A 138 −16.446 −0.838 −32.341 1.00 17.46 ATOM 1046 CG TYR A 138 −17.112 −0.897 −33.693 1.00 18.28 ATOM 1047 CD1 TYR A 138 −18.350 −0.268 −33.914 1.00 18.85 ATOM 1048 CE1 TYR A 138 −18.966 −0.314 −35.153 1.00 21.29 ATOM 1049 CZ TYR A 138 −18.358 −1.001 −36.207 1.00 20.99 ATOM 1050 OH TYR A 138 −18.994 −1.055 −37.433 1.00 20.06 ATOM 1051 CE2 TYR A 138 −17.133 −1.636 −36.026 1.00 19.88 ATOM 1052 CD2 TYR A 138 −16.512 −1.583 −34.766 1.00 18.25 ATOM 1053 C TYR A 138 −17.643 −2.844 −31.406 1.00 18.67 ATOM 1054 O TYR A 138 −18.654 −3.207 −32.037 1.00 20.06 ATOM 1055 N SER A 139 −16.766 −3.686 −30.864 1.00 19.48 ATOM 1056 CA SER A 139 −16.942 −5.146 −30.900 1.00 21.02 ATOM 1057 CB SER A 139 −15.808 −5.829 −30.129 1.00 21.09 ATOM 1058 OG SER A 139 −14.581 −5.598 −30.789 1.00 21.49 ATOM 1059 C SER A 139 −18.298 −5.557 −30.325 1.00 22.24 ATOM 1060 O SER A 139 −19.002 −6.392 −30.907 1.00 23.64 ATOM 1061 N LYS A 140 −18.669 −4.976 −29.188 1.00 22.77 ATOM 1062 CA LYS A 140 −19.987 −5.225 −28.595 1.00 24.29 ATOM 1063 CB LYS A 140 −20.218 −4.343 −27.370 1.00 24.29 ATOM 1064 CG LYS A 140 −19.384 −4.695 −26.170 1.00 26.62 ATOM 1065 CD LYS A 140 −19.696 −3.693 −25.060 1.00 28.24 ATOM 1066 CE LYS A 140 −18.589 −3.635 −24.056 1.00 28.19 ATOM 1067 NZ LYS A 140 −18.940 −2.725 −22.954 1.00 26.78 ATOM 1068 C LYS A 140 −21.126 −5.001 −29.584 1.00 24.17 ATOM 1069 O LYS A 140 −22.053 −5.823 −29.670 1.00 24.94 ATOM 1070 N TRP A 141 −21.062 −3.898 −30.321 1.00 23.60 ATOM 1071 CA TRP A 141 −22.054 −3.613 −31.338 1.00 24.29 ATOM 1072 CB TRP A 141 −21.847 −2.226 −31.953 1.00 24.36 ATOM 1073 CG TRP A 141 −22.973 −1.833 −32.874 1.00 24.25 ATOM 1074 CD1 TRP A 141 −24.113 −1.170 −32.531 1.00 25.06 ATOM 1075 NE1 TRP A 141 −24.921 −1.016 −33.638 1.00 25.22 ATOM 1076 CE2 TRP A 141 −24.302 −1.575 −34.722 1.00 24.07 ATOM 1077 CD2 TRP A 141 −23.078 −2.115 −34.276 1.00 24.80 ATOM 1078 CE3 TRP A 141 −22.248 −2.766 −35.203 1.00 25.40 ATOM 1079 CZ3 TRP A 141 −22.669 −2.858 −36.532 1.00 25.72 ATOM 1080 CH2 TRP A 141 −23.891 −2.304 −36.940 1.00 24.95 ATOM 1081 CZ2 TRP A 141 −24.721 −1.666 −36.051 1.00 25.14 ATOM 1082 C TRP A 141 −22.078 −4.666 −32.448 1.00 24.47 ATOM 1083 O TRP A 141 −23.155 −5.152 −32.831 1.00 24.52 ATOM 1084 N LEU A 142 −20.904 −4.991 −32.985 1.00 24.39 ATOM 1085 CA LEU A 142 −20.806 −6.024 −34.010 1.00 25.05 ATOM 1086 CB LEU A 142 −19.361 −6.199 −34.473 1.00 24.56 ATOM 1087 CG LEU A 142 −18.754 −5.023 −35.252 1.00 24.44 ATOM 1088 CD1 LEU A 142 −17.274 −5.304 −35.441 1.00 23.72 ATOM 1089 CD2 LEU A 142 −19.424 −4.793 −36.624 1.00 25.76 ATOM 1090 C LEU A 142 −21.406 −7.364 −33.556 1.00 25.97 ATOM 1091 O LEU A 142 −22.195 −7.966 −34.283 1.00 26.49 ATOM 1092 N ILE A 143 −21.045 −7.814 −32.359 1.00 27.04 ATOM 1093 CA ILE A 143 −21.596 −9.040 −31.792 1.00 28.46 ATOM 1094 CB ILE A 143 −20.959 −9.362 −30.425 1.00 28.30 ATOM 1095 CG1 ILE A 143 −19.474 −9.722 −30.609 1.00 27.97 ATOM 1096 CD1 ILE A 143 −18.707 −9.814 −29.301 1.00 29.85 ATOM 1097 CG2 ILE A 143 −21.720 −10.494 −29.717 1.00 29.57 ATOM 1098 C ILE A 143 −23.124 −8.992 −31.682 1.00 29.52 ATOM 1099 O ILE A 143 −23.813 −9.928 −32.118 1.00 30.10 ATOM 1100 N ASN A 144 −23.655 −7.916 −31.111 1.00 30.37 ATOM 1101 CA ASN A 144 −25.109 −7.768 −30.988 1.00 32.18 ATOM 1102 CB ASN A 144 −25.479 −6.522 −30.186 1.00 32.73 ATOM 1103 CG ASN A 144 −26.960 −6.489 −29.792 1.00 36.88 ATOM 1104 OD1 ASN A 144 −27.444 −7.350 −29.041 1.00 42.25 ATOM 1105 ND2 ASN A 144 −27.685 −5.488 −30.291 1.00 40.10 ATOM 1106 C ASN A 144 −25.820 −7.760 −32.341 1.00 32.17 ATOM 1107 O ASN A 144 −27.012 −8.029 −32.411 1.00 32.73 ATOM 1108 N ASN A 145 −25.094 −7.460 −33.411 1.00 32.19 ATOM 1109 CA ASN A 145 −25.705 −7.403 −34.726 1.00 32.78 ATOM 1110 CB ASN A 145 −25.526 −6.014 −35.331 1.00 33.16 ATOM 1111 CG ASN A 145 −26.397 −4.986 −34.639 1.00 34.32 ATOM 1112 OD1 ASN A 145 −27.576 −4.841 −34.969 1.00 37.42 ATOM 1113 ND2 ASN A 145 −25.834 −4.289 −33.647 1.00 34.31 ATOM 1114 C ASN A 145 −25.285 −8.533 −35.671 1.00 33.13 ATOM 1115 O ASN A 145 −25.412 −8.415 −36.902 1.00 33.03 ATOM 1116 N ASN A 146 −24.789 −9.618 −35.065 1.00 33.43 ATOM 1117 CA ASN A 146 −24.475 −10.885 −35.736 1.00 34.14 ATOM 1118 CB ASN A 146 −25.710 −11.459 −36.461 1.00 34.85 ATOM 1119 CG ASN A 146 −26.994 −11.280 −35.657 1.00 37.41 ATOM 1120 OD1 ASN A 146 −27.033 −11.543 −34.450 1.00 41.43 ATOM 1121 ND2 ASN A 146 −28.047 −10.814 −36.321 1.00 41.54 ATOM 1122 C ASN A 146 −23.266 −10.795 −36.652 1.00 33.92 ATOM 1123 O ASN A 146 −23.216 −11.419 −37.724 1.00 33.76 ATOM 1124 N TYR A 147 −22.280 −10.013 −36.221 1.00 32.92 ATOM 1125 CA TYR A 147 −21.049 −9.870 −36.974 1.00 32.90 ATOM 1126 CB TYR A 147 −20.859 −8.423 −37.451 1.00 33.31 ATOM 1127 CG TYR A 147 −21.966 −7.893 −38.339 1.00 33.29 ATOM 1128 CD1 TYR A 147 −22.168 −8.410 −39.621 1.00 34.11 ATOM 1129 CE1 TYR A 147 −23.177 −7.924 −40.438 1.00 34.19 ATOM 1130 CZ TYR A 147 −23.986 −6.888 −39.983 1.00 34.10 ATOM 1131 OH TYR A 147 −24.987 −6.399 −40.794 1.00 35.08 ATOM 1132 CE2 TYR A 147 −23.798 −6.345 −38.722 1.00 32.48 ATOM 1133 CD2 TYR A 147 −22.792 −6.852 −37.906 1.00 32.03 ATOM 1134 C TYR A 147 −19.857 −10.297 −36.138 1.00 32.74 ATOM 1135 O TYR A 147 −18.795 −9.710 −36.242 1.00 32.03 ATOM 1136 N GLN A 148 −20.037 −11.325 −35.312 1.00 33.44 ATOM 1137 CA GLN A 148 −18.977 −11.807 −34.427 1.00 34.39 ATOM 1138 CB GLN A 148 −19.483 −12.971 −33.573 1.00 34.76 ATOM 1139 CG GLN A 148 −18.523 −13.445 −32.481 1.00 35.56 ATOM 1140 CD GLN A 148 −19.216 −14.273 −31.401 1.00 36.59 ATOM 1141 OE1 GLN A 148 −20.296 −13.913 −30.916 1.00 41.20 ATOM 1142 NE2 GLN A 148 −18.589 −15.380 −31.008 1.00 38.65 ATOM 1143 C GLN A 148 −17.690 −12.196 −35.176 1.00 34.46 ATOM 1144 O GLN A 148 −16.582 −12.002 −34.654 1.00 34.20 ATOM 1145 N PHE A 149 −17.841 −12.735 −36.391 1.00 34.19 ATOM 1146 CA PHE A 149 −16.696 −13.131 −37.217 1.00 34.10 ATOM 1147 CB PHE A 149 −17.140 −13.804 −38.534 1.00 35.60 ATOM 1148 CG PHE A 149 −18.346 −13.168 −39.193 1.00 38.70 ATOM 1149 CD1 PHE A 149 −19.388 −13.976 −39.676 1.00 42.72 ATOM 1150 CE1 PHE A 149 −20.518 −13.417 −40.295 1.00 43.69 ATOM 1151 CZ PHE A 149 −20.615 −12.019 −40.437 1.00 43.12 ATOM 1152 CE2 PHE A 149 −19.567 −11.188 −39.953 1.00 43.20 ATOM 1153 CD2 PHE A 149 −18.451 −11.772 −39.341 1.00 42.33 ATOM 1154 C PHE A 149 −15.746 −11.960 −37.517 1.00 32.49 ATOM 1155 O PHE A 149 −14.528 −12.132 −37.548 1.00 32.23 ATOM 1156 N THR A 150 −16.327 −10.789 −37.751 1.00 30.95 ATOM 1157 CA THR A 150 −15.570 −9.568 −38.040 1.00 29.68 ATOM 1158 CB THR A 150 −16.512 −8.424 −38.445 1.00 29.97 ATOM 1159 OG1 THR A 150 −17.162 −8.768 −39.673 1.00 30.58 ATOM 1160 CG2 THR A 150 −15.758 −7.096 −38.637 1.00 29.18 ATOM 1161 C THR A 150 −14.727 −9.203 −36.822 1.00 28.54 ATOM 1162 O THR A 150 −13.566 −8.827 −36.965 1.00 28.38 ATOM 1163 N VAL A 151 −15.310 −9.354 −35.636 1.00 27.23 ATOM 1164 CA VAL A 151 −14.597 −9.146 −34.374 1.00 26.78 ATOM 1165 CB VAL A 151 −15.529 −9.352 −33.148 1.00 26.25 ATOM 1166 CG1 VAL A 151 −14.752 −9.213 −31.832 1.00 26.50 ATOM 1167 CG2 VAL A 151 −16.690 −8.361 −33.178 1.00 24.41 ATOM 1168 C VAL A 151 −13.384 −10.080 −34.305 1.00 27.61 ATOM 1169 O VAL A 151 −12.246 −9.638 −34.106 1.00 26.67 ATOM 1170 N SER A 152 −13.625 −11.375 −34.505 1.00 28.53 ATOM 1171 CA SER A 152 −12.551 −12.369 −34.470 1.00 30.01 ATOM 1172 CB SER A 152 −13.102 −13.759 −34.773 1.00 30.18 ATOM 1173 OG SER A 152 −13.612 −14.300 −33.586 1.00 32.28 ATOM 1174 C SER A 152 −11.419 −12.091 −35.430 1.00 30.23 ATOM 1175 O SER A 152 −10.250 −12.250 −35.090 1.00 30.95 ATOM 1176 N ASN A 153 −11.762 −11.705 −36.641 1.00 31.46 ATOM 1177 CA ASN A 153 −10.753 −11.624 −37.674 1.00 32.41 ATOM 1178 CB ASN A 153 −11.333 −12.118 −38.997 1.00 33.62 ATOM 1179 CG ASN A 153 −11.791 −13.584 −38.902 1.00 36.13 ATOM 1180 OD1 ASN A 153 −12.931 −13.918 −39.231 1.00 40.99 ATOM 1181 ND2 ASN A 153 −10.917 −14.444 −38.383 1.00 37.61 ATOM 1182 C ASN A 153 −10.060 −10.272 −37.787 1.00 32.10 ATOM 1183 O ASN A 153 −8.850 −10.213 −38.020 1.00 32.79 ATOM 1184 N VAL A 154 −10.810 −9.193 −37.577 1.00 30.55 ATOM 1185 CA VAL A 154 −10.251 −7.854 −37.750 1.00 28.93 ATOM 1186 CB VAL A 154 −11.217 −6.925 −38.537 1.00 29.03 ATOM 1187 CG1 VAL A 154 −10.565 −5.577 −38.827 1.00 29.23 ATOM 1188 CG2 VAL A 154 −11.654 −7.585 −39.860 1.00 29.87 ATOM 1189 C VAL A 154 −9.824 −7.211 −36.414 1.00 27.28 ATOM 1190 O VAL A 154 −8.722 −6.678 −36.306 1.00 26.96 ATOM 1191 N ILE A 155 −10.685 −7.288 −35.403 1.00 25.13 ATOM 1192 CA ILE A 155 −10.525 −6.459 −34.197 1.00 23.05 ATOM 1193 CB ILE A 155 −11.900 −5.972 −33.670 1.00 23.10 ATOM 1194 CG1 ILE A 155 −12.596 −5.128 −34.741 1.00 22.49 ATOM 1195 CD1 ILE A 155 −14.006 −4.680 −34.375 1.00 22.72 ATOM 1196 CG2 ILE A 155 −11.731 −5.144 −32.399 1.00 23.05 ATOM 1197 C ILE A 155 −9.710 −7.136 −33.092 1.00 22.44 ATOM 1198 O ILE A 155 −8.789 −6.537 −32.533 1.00 21.14 ATOM 1199 N TRP A 156 −10.006 −8.409 −32.822 1.00 21.48 ATOM 1200 CA TRP A 156 −9.392 −9.099 −31.696 1.00 21.75 ATOM 1201 CB TRP A 156 −9.958 −10.520 −31.511 1.00 22.50 ATOM 1202 CG TRP A 156 −9.298 −11.245 −30.371 1.00 23.43 ATOM 1203 CD1 TRP A 156 −8.420 −12.298 −30.461 1.00 24.92 ATOM 1204 NE1 TRP A 156 −8.011 −12.680 −29.198 1.00 24.85 ATOM 1205 CE2 TRP A 156 −8.600 −11.863 −28.269 1.00 26.38 ATOM 1206 CD2 TRP A 156 −9.416 −10.941 −28.970 1.00 25.03 ATOM 1207 CE3 TRP A 156 −10.139 −9.983 −28.236 1.00 25.01 ATOM 1208 CZ3 TRP A 156 −10.024 −9.982 −26.844 1.00 24.30 ATOM 1209 CH2 TRP A 156 −9.206 −10.910 −26.185 1.00 23.97 ATOM 1210 CZ2 TRP A 156 −8.495 −11.861 −26.875 1.00 24.60 ATOM 1211 C TRP A 156 −7.845 −9.109 −31.699 1.00 21.52 ATOM 1212 O TRP A 156 −7.235 −8.945 −30.648 1.00 21.78 ATOM 1213 N PRO A 157 −7.209 −9.303 −32.870 1.00 21.66 ATOM 1214 CA PRO A 157 −5.726 −9.258 −32.878 1.00 21.40 ATOM 1215 CB PRO A 157 −5.378 −9.459 −34.360 1.00 21.26 ATOM 1216 CG PRO A 157 −6.583 −10.172 −34.955 1.00 22.82 ATOM 1217 CD PRO A 157 −7.762 −9.596 −34.207 1.00 21.45 ATOM 1218 C PRO A 157 −5.162 −7.898 −32.410 1.00 21.30 ATOM 1219 O PRO A 157 −4.092 −7.837 −31.795 1.00 21.11 ATOM 1220 N ILE A 158 −5.881 −6.821 −32.724 1.00 20.52 ATOM 1221 CA ILE A 158 −5.457 −5.467 −32.318 1.00 19.93 ATOM 1222 CB ILE A 158 −6.273 −4.348 −33.034 1.00 19.73 ATOM 1223 CG1 ILE A 158 −6.261 −4.527 −34.559 1.00 21.25 ATOM 1224 CD1 ILE A 158 −7.229 −3.640 −35.351 1.00 20.03 ATOM 1225 CG2 ILE A 158 −5.686 −2.971 −32.670 1.00 20.16 ATOM 1226 C ILE A 158 −5.632 −5.366 −30.816 1.00 19.58 ATOM 1227 O ILE A 158 −4.701 −5.023 −30.081 1.00 19.04 ATOM 1228 N VAL A 159 −6.840 −5.704 −30.359 1.00 19.39 ATOM 1229 CA VAL A 159 −7.201 −5.624 −28.953 1.00 19.15 ATOM 1230 CB VAL A 159 −8.687 −6.026 −28.744 1.00 19.06 ATOM 1231 CG1 VAL A 159 −9.046 −6.028 −27.253 1.00 20.39 ATOM 1232 CG2 VAL A 159 −9.604 −5.090 −29.511 1.00 20.08 ATOM 1233 C VAL A 159 −6.280 −6.501 −28.105 1.00 19.39 ATOM 1234 O VAL A 159 −5.794 −6.089 −27.036 1.00 18.63 ATOM 1235 N ARG A 160 −6.022 −7.721 −28.585 1.00 18.93 ATOM 1236 CA ARG A 160 −5.171 −8.633 −27.833 1.00 19.64 ATOM 1237 CB ARG A 160 −5.078 −10.005 −28.513 1.00 19.17 ATOM 1238 CG ARG A 160 −4.064 −10.942 −27.872 1.00 21.41 ATOM 1239 CD ARG A 160 −3.978 −12.278 −28.637 1.00 23.47 ATOM 1240 NE ARG A 160 −3.542 −12.066 −30.021 1.00 29.25 ATOM 1241 CZ ARG A 160 −3.963 −12.771 −31.074 1.00 33.46 ATOM 1242 NH1 ARG A 160 −4.839 −13.764 −30.929 1.00 36.48 ATOM 1243 NH2 ARG A 160 −3.501 −12.489 −32.289 1.00 34.33 ATOM 1244 C ARG A 160 −3.785 −8.058 −27.580 1.00 18.24 ATOM 1245 O ARG A 160 −3.262 −8.233 −26.517 1.00 18.13 ATOM 1246 N ASN A 161 −3.182 −7.371 −28.551 1.00 18.57 ATOM 1247 CA ASN A 161 −1.875 −6.717 −28.289 1.00 18.40 ATOM 1248 CB ASN A 161 −1.344 −6.052 −29.561 1.00 18.82 ATOM 1249 CG ASN A 161 −0.772 −7.055 −30.549 1.00 20.68 ATOM 1250 OD1 ASN A 161 −0.240 −8.097 −30.149 1.00 22.60 ATOM 1251 ND2 ASN A 161 −0.883 −6.751 −31.837 1.00 19.81 ATOM 1252 C ASN A 161 −1.946 −5.656 −27.182 1.00 18.36 ATOM 1253 O ASN A 161 −1.078 −5.581 −26.313 1.00 17.42 ATOM 1254 N ASP A 162 −2.982 −4.816 −27.233 1.00 17.86 ATOM 1255 CA ASP A 162 −3.163 −3.782 −26.194 1.00 16.85 ATOM 1256 CB ASP A 162 −4.293 −2.821 −26.586 1.00 16.71 ATOM 1257 CG ASP A 162 −3.851 −1.791 −27.623 1.00 17.46 ATOM 1258 OD1 ASP A 162 −2.648 −1.440 −27.681 1.00 16.98 ATOM 1259 OD2 ASP A 162 −4.719 −1.333 −28.388 1.00 18.89 ATOM 1260 C ASP A 162 −3.421 −4.354 −24.799 1.00 16.51 ATOM 1261 O ASP A 162 −2.846 −3.897 −23.822 1.00 15.71 ATOM 1262 N LEU A 163 −4.278 −5.371 −24.715 1.00 16.83 ATOM 1263 CA LEU A 163 −4.532 −6.071 −23.459 1.00 16.55 ATOM 1264 CB LEU A 163 −5.661 −7.088 −23.637 1.00 16.96 ATOM 1265 CG LEU A 163 −7.030 −6.506 −23.975 1.00 19.29 ATOM 1266 CD1 LEU A 163 −8.007 −7.663 −24.227 1.00 19.71 ATOM 1267 CD2 LEU A 163 −7.484 −5.631 −22.818 1.00 21.19 ATOM 1268 C LEU A 163 −3.279 −6.750 −22.883 1.00 16.19 ATOM 1269 O LEU A 163 −3.035 −6.690 −21.688 1.00 15.47 ATOM 1270 N ASN A 164 −2.495 −7.401 −23.748 1.00 16.85 ATOM 1271 CA ASN A 164 −1.251 −8.040 −23.305 1.00 16.44 ATOM 1272 CB ASN A 164 −0.602 −8.836 −24.450 1.00 17.06 ATOM 1273 CG ASN A 164 −1.333 −10.153 −24.718 1.00 19.63 ATOM 1274 OD1 ASN A 164 −2.274 −10.513 −23.982 1.00 20.97 ATOM 1275 ND2 ASN A 164 −0.903 −10.881 −25.756 1.00 19.79 ATOM 1276 C ASN A 164 −0.301 −7.022 −22.761 1.00 16.80 ATOM 1277 O ASN A 164 0.349 −7.261 −21.751 1.00 15.97 ATOM 1278 N TYR A 165 −0.250 −5.860 −23.415 1.00 16.45 ATOM 1279 CA TYR A 165 0.573 −4.744 −22.930 1.00 16.15 ATOM 1280 CB TYR A 165 0.420 −3.508 −23.844 1.00 16.63 ATOM 1281 CG TYR A 165 1.286 −2.356 −23.391 1.00 16.41 ATOM 1282 CD1 TYR A 165 0.838 −1.459 −22.404 1.00 17.94 ATOM 1283 CE1 TYR A 165 1.651 −0.402 −21.958 1.00 17.84 ATOM 1284 CZ TYR A 165 2.916 −0.223 −22.517 1.00 18.36 ATOM 1285 OH TYR A 165 3.699 0.841 −22.091 1.00 16.54 ATOM 1286 CE2 TYR A 165 3.383 −1.105 −23.502 1.00 16.73 ATOM 1287 CD2 TYR A 165 2.552 −2.157 −23.942 1.00 16.01 ATOM 1288 C TYR A 165 0.198 −4.366 −21.503 1.00 16.26 ATOM 1289 O TYR A 165 1.073 −4.218 −20.650 1.00 15.43 ATOM 1290 N VAL A 166 −1.104 −4.177 −21.258 1.00 16.75 ATOM 1291 CA VAL A 166 −1.600 −3.786 −19.933 1.00 17.39 ATOM 1292 CB VAL A 166 −3.124 −3.479 −19.986 1.00 17.57 ATOM 1293 CG1 VAL A 166 −3.712 −3.197 −18.582 1.00 19.25 ATOM 1294 CG2 VAL A 166 −3.363 −2.272 −20.909 1.00 16.49 ATOM 1295 C VAL A 166 −1.258 −4.829 −18.865 1.00 17.83 ATOM 1296 O VAL A 166 −0.741 −4.483 −17.792 1.00 18.00 ATOM 1297 N ALA A 167 −1.520 −6.099 −19.188 1.00 18.26 ATOM 1298 CA ALA A 167 −1.233 −7.218 −18.285 1.00 18.92 ATOM 1299 CB ALA A 167 −1.716 −8.532 −18.899 1.00 18.25 ATOM 1300 C ALA A 167 0.251 −7.325 −17.956 1.00 19.08 ATOM 1301 O ALA A 167 0.611 −7.757 −16.854 1.00 20.02 ATOM 1302 N GLN A 168 1.097 −6.955 −18.920 1.00 19.13 ATOM 1303 CA GLN A 168 2.558 −7.022 −18.749 1.00 19.21 ATOM 1304 CB GLN A 168 3.218 −7.201 −20.115 1.00 19.08 ATOM 1305 CG GLN A 168 4.739 −7.373 −20.053 1.00 20.55 ATOM 1306 CD GLN A 168 5.337 −7.891 −21.355 1.00 20.26 ATOM 1307 OE1 GLN A 168 4.634 −8.378 −22.238 1.00 22.69 ATOM 1308 NE2 GLN A 168 6.643 −7.772 −21.476 1.00 23.10 ATOM 1309 C GLN A 168 3.182 −5.807 −18.048 1.00 19.60 ATOM 1310 O GLN A 168 4.104 −5.942 −17.205 1.00 18.87 ATOM 1311 N TYR A 169 2.709 −4.609 −18.404 1.00 19.23 ATOM 1312 CA TYR A 169 3.399 −3.377 −18.011 1.00 19.45 ATOM 1313 CB TYR A 169 3.760 −2.560 −19.266 1.00 20.43 ATOM 1314 CG TYR A 169 4.773 −3.203 −20.203 1.00 21.30 ATOM 1315 CD1 TYR A 169 6.125 −3.243 −19.872 1.00 23.63 ATOM 1316 CE1 TYR A 169 7.065 −3.822 −20.723 1.00 24.59 ATOM 1317 CZ TYR A 169 6.651 −4.359 −21.926 1.00 23.11 ATOM 1318 OH TYR A 169 7.580 −4.924 −22.779 1.00 25.26 ATOM 1319 CE2 TYR A 169 5.309 −4.330 −22.288 1.00 22.49 ATOM 1320 CD2 TYR A 169 4.375 −3.754 −21.422 1.00 20.87 ATOM 1321 C TYR A 169 2.675 −2.449 −17.015 1.00 19.49 ATOM 1322 O TYR A 169 3.205 −1.386 −16.691 1.00 19.69 ATOM 1323 N TRP A 170 1.508 −2.850 −16.498 1.00 18.91 ATOM 1324 CA TRP A 170 0.735 −1.981 −15.588 1.00 19.29 ATOM 1325 CB TRP A 170 −0.610 −2.626 −15.208 1.00 18.85 ATOM 1326 CG TRP A 170 −0.489 −3.743 −14.215 1.00 21.04 ATOM 1327 CD1 TRP A 170 −0.342 −5.083 −14.489 1.00 20.67 ATOM 1328 NE1 TRP A 170 −0.259 −5.793 −13.317 1.00 22.09 ATOM 1329 CE2 TRP A 170 −0.336 −4.928 −12.258 1.00 19.19 ATOM 1330 CD2 TRP A 170 −0.481 −3.621 −12.789 1.00 20.35 ATOM 1331 CE3 TRP A 170 −0.582 −2.530 −11.905 1.00 19.61 ATOM 1332 CZ3 TRP A 170 −0.546 −2.769 −10.542 1.00 22.33 ATOM 1333 CH2 TRP A 170 −0.404 −4.090 −10.038 1.00 21.08 ATOM 1334 CZ2 TRP A 170 −0.297 −5.179 −10.884 1.00 20.76 ATOM 1335 C TRP A 170 1.526 −1.592 −14.336 1.00 19.20 ATOM 1336 O TRP A 170 1.395 −0.475 −13.808 1.00 19.24 ATOM 1337 N ASN A 171 2.371 −2.504 −13.858 1.00 19.13 ATOM 1338 CA ASN A 171 3.054 −2.280 −12.596 1.00 20.12 ATOM 1339 CB ASN A 171 3.178 −3.603 −11.820 1.00 20.59 ATOM 1340 CG ASN A 171 3.646 −3.419 −10.392 1.00 22.31 ATOM 1341 OD1 ASN A 171 4.531 −4.155 −9.938 1.00 23.68 ATOM 1342 ND2 ASN A 171 3.081 −2.435 −9.684 1.00 18.77 ATOM 1343 C ASN A 171 4.392 −1.557 −12.797 1.00 20.93 ATOM 1344 O ASN A 171 5.333 −1.724 −12.022 1.00 20.35 ATOM 1345 N GLN A 172 4.449 −0.712 −13.826 1.00 20.64 ATOM 1346 CA GLN A 172 5.644 0.061 −14.156 1.00 22.31 ATOM 1347 CB GLN A 172 6.262 −0.452 −15.469 1.00 22.04 ATOM 1348 CG GLN A 172 6.784 −1.895 −15.312 1.00 25.79 ATOM 1349 CD GLN A 172 7.536 −2.450 −16.515 1.00 27.61 ATOM 1350 OE1 GLN A 172 8.276 −1.735 −17.214 1.00 35.65 ATOM 1351 NE2 GLN A 172 7.367 −3.755 −16.752 1.00 33.80 ATOM 1352 C GLN A 172 5.287 1.539 −14.268 1.00 21.36 ATOM 1353 O GLN A 172 4.175 1.867 −14.704 1.00 21.04 ATOM 1354 N THR A 173 6.209 2.417 −13.871 1.00 19.73 ATOM 1355 CA THR A 173 5.948 3.871 −13.928 1.00 20.07 ATOM 1356 CB THR A 173 7.001 4.703 −13.168 1.00 19.48 ATOM 1357 OG1 THR A 173 8.300 4.427 −13.707 1.00 21.56 ATOM 1358 CG2 THR A 173 6.988 4.375 −11.690 1.00 20.86 ATOM 1359 C THR A 173 5.913 4.347 −15.375 1.00 18.53 ATOM 1360 O THR A 173 6.395 3.665 −16.292 1.00 18.48 ATOM 1361 N GLY A 174 5.345 5.528 −15.582 1.00 18.38 ATOM 1362 CA GLY A 174 5.363 6.149 −16.903 1.00 17.13 ATOM 1363 C GLY A 174 4.760 7.522 −16.736 1.00 16.77 ATOM 1364 O GLY A 174 4.462 7.939 −15.605 1.00 16.87 ATOM 1365 N PHE A 175 4.571 8.223 −17.849 1.00 14.68 ATOM 1366 CA PHE A 175 4.004 9.577 −17.776 1.00 14.68 ATOM 1367 CB PHE A 175 4.522 10.432 −18.948 1.00 15.16 ATOM 1368 CG PHE A 175 5.943 10.847 −18.756 1.00 15.28 ATOM 1369 CD1 PHE A 175 6.981 10.000 −19.144 1.00 18.04 ATOM 1370 CE1 PHE A 175 8.313 10.359 −18.915 1.00 19.53 ATOM 1371 CZ PHE A 175 8.609 11.582 −18.278 1.00 19.12 ATOM 1372 CE2 PHE A 175 7.571 12.429 −17.876 1.00 18.63 ATOM 1373 CD2 PHE A 175 6.247 12.054 −18.113 1.00 17.67 ATOM 1374 C PHE A 175 2.483 9.584 −17.655 1.00 14.11 ATOM 1375 O PHE A 175 1.799 8.683 −18.175 1.00 14.32 ATOM 1376 N ASP A 176 1.972 10.591 −16.938 1.00 14.79 ATOM 1377 CA ASP A 176 0.541 10.764 −16.713 1.00 14.45 ATOM 1378 CB ASP A 176 0.297 11.661 −15.506 1.00 13.51 ATOM 1379 CG ASP A 176 0.685 13.126 −15.760 1.00 14.99 ATOM 1380 OD1 ASP A 176 1.774 13.399 −16.329 1.00 14.32 ATOM 1381 OD2 ASP A 176 −0.112 14.012 −15.376 1.00 15.08 ATOM 1382 C ASP A 176 −0.143 11.343 −17.962 1.00 14.21 ATOM 1383 O ASP A 176 0.525 11.641 −18.963 1.00 14.31 ATOM 1384 N LEU A 177 −1.467 11.511 −17.891 1.00 13.30 ATOM 1385 CA LEU A 177 −2.235 11.981 −19.048 1.00 13.44 ATOM 1386 CB LEU A 177 −3.752 11.839 −18.832 1.00 13.71 ATOM 1387 CG LEU A 177 −4.483 12.896 −18.012 1.00 14.11 ATOM 1388 CD1 LEU A 177 −5.996 12.647 −18.061 1.00 13.65 ATOM 1389 CD2 LEU A 177 −4.007 12.922 −16.553 1.00 14.74 ATOM 1390 C LEU A 177 −1.884 13.424 −19.452 1.00 13.51 ATOM 1391 O LEU A 177 −2.131 13.813 −20.600 1.00 13.74 ATOM 1392 N TRP A 178 −1.319 14.206 −18.521 1.00 12.53 ATOM 1393 CA TRP A 178 −0.804 15.553 −18.855 1.00 12.95 ATOM 1394 CB TRP A 178 −0.890 16.507 −17.660 1.00 12.67 ATOM 1395 CG TRP A 178 −2.247 16.549 −17.005 1.00 13.10 ATOM 1396 CD1 TRP A 178 −2.504 16.508 −15.662 1.00 13.10 ATOM 1397 NE1 TRP A 178 −3.856 16.568 −15.440 1.00 12.14 ATOM 1398 CE2 TRP A 178 −4.501 16.646 −16.646 1.00 13.00 ATOM 1399 CD2 TRP A 178 −3.516 16.641 −17.657 1.00 12.53 ATOM 1400 CE3 TRP A 178 −3.919 16.715 −19.002 1.00 12.38 ATOM 1401 CZ3 TRP A 178 −5.309 16.813 −19.290 1.00 13.91 ATOM 1402 CH2 TRP A 178 −6.262 16.804 −18.257 1.00 13.52 ATOM 1403 CZ2 TRP A 178 −5.883 16.718 −16.930 1.00 13.97 ATOM 1404 C TRP A 178 0.632 15.565 −19.400 1.00 13.35 ATOM 1405 O TRP A 178 1.147 16.641 −19.756 1.00 13.76 ATOM 1406 N GLU A 179 1.255 14.387 −19.447 1.00 13.33 ATOM 1407 CA GLU A 179 2.532 14.151 −20.117 1.00 13.32 ATOM 1408 CB GLU A 179 2.503 14.632 −21.582 1.00 12.64 ATOM 1409 CG GLU A 179 1.165 14.344 −22.280 1.00 13.03 ATOM 1410 CD GLU A 179 1.274 14.434 −23.785 1.00 14.68 ATOM 1411 OE1 GLU A 179 0.895 15.478 −24.340 1.00 15.98 ATOM 1412 OE2 GLU A 179 1.730 13.457 −24.405 1.00 15.44 ATOM 1413 C GLU A 179 3.667 14.853 −19.374 1.00 15.00 ATOM 1414 O GLU A 179 4.626 15.292 −20.004 1.00 14.90 ATOM 1415 N GLU A 180 3.561 14.932 −18.048 1.00 14.78 ATOM 1416 CA GLU A 180 4.476 15.745 −17.246 1.00 16.76 ATOM 1417 CB GLU A 180 3.719 16.928 −16.630 1.00 16.95 ATOM 1418 CG GLU A 180 3.282 17.972 −17.654 1.00 18.69 ATOM 1419 CD GLU A 180 2.240 18.969 −17.122 1.00 19.72 ATOM 1420 OE1 GLU A 180 1.587 18.715 −16.077 1.00 19.00 ATOM 1421 OE2 GLU A 180 2.076 20.020 −17.793 1.00 24.62 ATOM 1422 C GLU A 180 5.124 14.954 −16.104 1.00 16.50 ATOM 1423 O GLU A 180 6.265 15.202 −15.750 1.00 17.36 ATOM 1424 N VAL A 181 4.364 14.056 −15.488 1.00 16.77 ATOM 1425 CA VAL A 181 4.775 13.426 −14.218 1.00 16.87 ATOM 1426 CB VAL A 181 3.672 13.555 −13.130 1.00 16.78 ATOM 1427 CG1 VAL A 181 4.030 12.732 −11.893 1.00 18.56 ATOM 1428 CG2 VAL A 181 3.490 15.008 −12.726 1.00 17.21 ATOM 1429 C VAL A 181 5.057 11.953 −14.451 1.00 17.22 ATOM 1430 O VAL A 181 4.177 11.205 −14.825 1.00 16.93 ATOM 1431 N ASN A 182 6.290 11.532 −14.201 1.00 18.39 ATOM 1432 CA ASN A 182 6.674 10.123 −14.394 1.00 18.57 ATOM 1433 CB ASN A 182 8.136 10.079 −14.845 1.00 19.77 ATOM 1434 CG ASN A 182 8.665 8.669 −15.056 1.00 23.96 ATOM 1435 OD1 ASN A 182 9.881 8.470 −15.058 1.00 33.20 ATOM 1436 ND2 ASN A 182 7.794 7.706 −15.258 1.00 23.63 ATOM 1437 C ASN A 182 6.440 9.375 −13.073 1.00 18.31 ATOM 1438 O ASN A 182 7.132 9.621 −12.087 1.00 18.80 ATOM 1439 N GLY A 183 5.436 8.508 −13.034 1.00 16.83 ATOM 1440 CA GLY A 183 5.091 7.828 −11.790 1.00 15.98 ATOM 1441 C GLY A 183 3.989 6.837 −12.033 1.00 15.59 ATOM 1442 O GLY A 183 3.937 6.228 −13.117 1.00 15.30 ATOM 1443 N SER A 184 3.119 6.670 −11.035 1.00 14.95 ATOM 1444 CA SER A 184 1.927 5.823 −11.151 1.00 15.45 ATOM 1445 CB SER A 184 1.844 4.792 −10.017 1.00 15.76 ATOM 1446 OG SER A 184 2.998 3.935 −10.027 1.00 17.33 ATOM 1447 C SER A 184 0.731 6.758 −11.073 1.00 15.14 ATOM 1448 O SER A 184 0.646 7.546 −10.148 1.00 15.83 ATOM 1449 N SER A 185 −0.151 6.706 −12.066 1.00 14.73 ATOM 1450 CA SER A 185 −1.169 7.755 −12.190 1.00 13.87 ATOM 1451 CB SER A 185 −0.991 8.535 −13.515 1.00 14.73 ATOM 1452 OG SER A 185 −1.793 9.721 −13.544 1.00 14.93 ATOM 1453 C SER A 185 −2.551 7.140 −12.127 1.00 13.49 ATOM 1454 O SER A 185 −2.834 6.134 −12.792 1.00 13.35 ATOM 1455 N PHE A 186 −3.427 7.782 −11.354 1.00 13.72 ATOM 1456 CA PHE A 186 −4.764 7.275 −11.092 1.00 13.43 ATOM 1457 CB PHE A 186 −5.511 8.319 −10.260 1.00 13.58 ATOM 1458 CG PHE A 186 −6.807 7.839 −9.662 1.00 13.52 ATOM 1459 CD1 PHE A 186 −6.819 6.873 −8.655 1.00 16.11 ATOM 1460 CE1 PHE A 186 −8.004 6.489 −8.036 1.00 17.80 ATOM 1461 CZ PHE A 186 −9.214 7.062 −8.442 1.00 16.18 ATOM 1462 CE2 PHE A 186 −9.211 8.051 −9.432 1.00 15.77 ATOM 1463 CD2 PHE A 186 −8.003 8.435 −10.030 1.00 14.62 ATOM 1464 C PHE A 186 −5.552 6.946 −12.372 1.00 13.57 ATOM 1465 O PHE A 186 −6.053 5.839 −12.524 1.00 13.36 ATOM 1466 N PHE A 187 −5.693 7.927 −13.267 1.00 12.53 ATOM 1467 CA PHE A 187 −6.416 7.762 −14.527 1.00 12.84 ATOM 1468 CB PHE A 187 −6.284 9.056 −15.356 1.00 11.69 ATOM 1469 CG PHE A 187 −6.949 9.016 −16.711 1.00 13.25 ATOM 1470 CD1 PHE A 187 −8.284 9.338 −16.855 1.00 12.86 ATOM 1471 CE1 PHE A 187 −8.893 9.342 −18.102 1.00 14.12 ATOM 1472 CZ PHE A 187 −8.139 9.041 −19.236 1.00 14.05 ATOM 1473 CE2 PHE A 187 −6.806 8.721 −19.111 1.00 14.30 ATOM 1474 CD2 PHE A 187 −6.206 8.711 −17.857 1.00 15.10 ATOM 1475 C PHE A 187 −5.887 6.563 −15.318 1.00 12.69 ATOM 1476 O PHE A 187 −6.666 5.837 −15.932 1.00 14.00 ATOM 1477 N THR A 188 −4.571 6.357 −15.294 1.00 12.97 ATOM 1478 CA THR A 188 −3.938 5.302 −16.084 1.00 13.65 ATOM 1479 CB THR A 188 −2.411 5.541 −16.104 1.00 13.69 ATOM 1480 OG1 THR A 188 −2.158 6.789 −16.753 1.00 15.37 ATOM 1481 CG2 THR A 188 −1.648 4.432 −16.833 1.00 13.24 ATOM 1482 C THR A 188 −4.284 3.929 −15.478 1.00 14.12 ATOM 1483 O THR A 188 −4.766 3.039 −16.173 1.00 14.40 ATOM 1484 N VAL A 189 −4.066 3.798 −14.173 1.00 13.34 ATOM 1485 CA VAL A 189 −4.348 2.543 −13.446 1.00 14.76 ATOM 1486 CB VAL A 189 −3.893 2.612 −11.958 1.00 14.90 ATOM 1487 CG1 VAL A 189 −4.331 1.334 −11.186 1.00 16.95 ATOM 1488 CG2 VAL A 189 −2.374 2.799 −11.865 1.00 15.31 ATOM 1489 C VAL A 189 −5.836 2.167 −13.560 1.00 14.48 ATOM 1490 O VAL A 189 −6.159 1.024 −13.853 1.00 14.65 ATOM 1491 N ALA A 190 −6.732 3.146 −13.372 1.00 13.77 ATOM 1492 CA ALA A 190 −8.171 2.858 −13.351 1.00 13.46 ATOM 1493 CB ALA A 190 −8.996 4.128 −12.922 1.00 12.74 ATOM 1494 C ALA A 190 −8.614 2.388 −14.706 1.00 13.27 ATOM 1495 O ALA A 190 −9.432 1.479 −14.815 1.00 13.24 ATOM 1496 N ASN A 191 −8.093 3.017 −15.760 1.00 12.50 ATOM 1497 CA ASN A 191 −8.438 2.598 −17.127 1.00 13.01 ATOM 1498 CB ASN A 191 −8.122 3.707 −18.137 1.00 12.65 ATOM 1499 CG ASN A 191 −9.191 4.781 −18.118 1.00 14.08 ATOM 1500 OD1 ASN A 191 −10.319 4.541 −18.554 1.00 16.39 ATOM 1501 ND2 ASN A 191 −8.857 5.955 −17.583 1.00 17.21 ATOM 1502 C ASN A 191 −7.815 1.259 −17.521 1.00 13.93 ATOM 1503 O ASN A 191 −8.412 0.490 −18.270 1.00 13.87 ATOM 1504 N GLN A 192 −6.636 0.995 −16.980 1.00 14.06 ATOM 1505 CA GLN A 192 −5.988 −0.311 −17.139 1.00 14.96 ATOM 1506 CB GLN A 192 −4.575 −0.274 −16.552 1.00 14.33 ATOM 1507 CG GLN A 192 −3.555 0.435 −17.500 1.00 13.64 ATOM 1508 CD GLN A 192 −2.206 0.635 −16.857 1.00 15.33 ATOM 1509 OE1 GLN A 192 −2.074 0.568 −15.646 1.00 15.48 ATOM 1510 NE2 GLN A 192 −1.182 0.925 −17.682 1.00 16.10 ATOM 1511 C GLN A 192 −6.855 −1.411 −16.519 1.00 15.11 ATOM 1512 O GLN A 192 −7.076 −2.457 −17.141 1.00 16.04 ATOM 1513 N HIS A 193 −7.398 −1.140 −15.329 1.00 15.81 ATOM 1514 CA HIS A 193 −8.314 −2.069 −14.668 1.00 16.01 ATOM 1515 CB HIS A 193 −8.746 −1.586 −13.281 1.00 16.72 ATOM 1516 CG HIS A 193 −9.806 −2.454 −12.669 1.00 17.39 ATOM 1517 ND1 HIS A 193 −11.113 −2.039 −12.505 1.00 18.05 ATOM 1518 CE1 HIS A 193 −11.821 −3.028 −11.983 1.00 18.70 ATOM 1519 NE2 HIS A 193 −11.023 −4.071 −11.814 1.00 17.20 ATOM 1520 CD2 HIS A 193 −9.758 −3.739 −12.242 1.00 18.04 ATOM 1521 C HIS A 193 −9.536 −2.343 −15.521 1.00 15.85 ATOM 1522 O HIS A 193 −9.898 −3.501 −15.732 1.00 15.70 ATOM 1523 N ARG A 194 −10.185 −1.285 −15.995 1.00 15.27 ATOM 1524 CA ARG A 194 −11.349 −1.437 −16.852 1.00 15.29 ATOM 1525 CB ARG A 194 −11.922 −0.073 −17.234 1.00 14.30 ATOM 1526 CG ARG A 194 −13.029 −0.212 −18.239 1.00 14.46 ATOM 1527 CD ARG A 194 −13.614 1.102 −18.723 1.00 15.43 ATOM 1528 NE ARG A 194 −14.589 0.780 −19.767 1.00 15.58 ATOM 1529 CZ ARG A 194 −15.624 1.539 −20.125 1.00 17.92 ATOM 1530 NH1 ARG A 194 −15.815 2.744 −19.576 1.00 14.60 ATOM 1531 NH2 ARG A 194 −16.451 1.095 −21.060 1.00 16.15 ATOM 1532 C ARG A 194 −11.047 −2.258 −18.111 1.00 15.74 ATOM 1533 O ARG A 194 −11.842 −3.120 −18.504 1.00 15.56 ATOM 1534 N ALA A 195 −9.918 −1.967 −18.758 1.00 15.60 ATOM 1535 CA ALA A 195 −9.562 −2.638 −20.004 1.00 15.90 ATOM 1536 CB ALA A 195 −8.254 −2.042 −20.591 1.00 15.40 ATOM 1537 C ALA A 195 −9.436 −4.150 −19.798 1.00 15.65 ATOM 1538 O ALA A 195 −9.959 −4.929 −20.610 1.00 16.79 ATOM 1539 N LEU A 196 −8.763 −4.550 −18.721 1.00 16.36 ATOM 1540 CA LEU A 196 −8.552 −5.976 −18.423 1.00 17.02 ATOM 1541 CB LEU A 196 −7.625 −6.126 −17.235 1.00 16.96 ATOM 1542 CG LEU A 196 −6.167 −5.744 −17.532 1.00 16.96 ATOM 1543 CD1 LEU A 196 −5.375 −5.857 −16.252 1.00 18.93 ATOM 1544 CD2 LEU A 196 −5.590 −6.636 −18.630 1.00 20.38 ATOM 1545 C LEU A 196 −9.877 −6.685 −18.167 1.00 17.92 ATOM 1546 O LEU A 196 −10.102 −7.795 −18.643 1.00 18.98 ATOM 1547 N VAL A 197 −10.779 −6.014 −17.454 1.00 18.51 ATOM 1548 CA VAL A 197 −12.112 −6.560 −17.181 1.00 18.81 ATOM 1549 CB VAL A 197 −12.875 −5.702 −16.130 1.00 18.26 ATOM 1550 CG1 VAL A 197 −14.340 −6.173 −15.994 1.00 21.18 ATOM 1551 CG2 VAL A 197 −12.149 −5.784 −14.778 1.00 19.79 ATOM 1552 C VAL A 197 −12.924 −6.779 −18.462 1.00 19.05 ATOM 1553 O VAL A 197 −13.456 −7.884 −18.693 1.00 18.62 ATOM 1554 N GLU A 198 −13.010 −5.752 −19.308 1.00 18.43 ATOM 1555 CA GLU A 198 −13.747 −5.873 −20.556 1.00 19.38 ATOM 1556 CB GLU A 198 −13.849 −4.517 −21.241 1.00 19.38 ATOM 1557 CG GLU A 198 −14.609 −3.530 −20.417 1.00 20.22 ATOM 1558 CD GLU A 198 −15.334 −2.537 −21.298 1.00 22.66 ATOM 1559 OE1 GLU A 198 −16.313 −2.940 −21.940 1.00 22.16 ATOM 1560 OE2 GLU A 198 −14.924 −1.369 −21.342 1.00 22.92 ATOM 1561 C GLU A 198 −13.094 −6.861 −21.509 1.00 19.78 ATOM 1562 O GLU A 198 −13.780 −7.506 −22.303 1.00 20.29 ATOM 1563 N GLY A 199 −11.770 −6.944 −21.435 1.00 19.78 ATOM 1564 CA GLY A 199 −10.998 −7.823 −22.314 1.00 20.88 ATOM 1565 C GLY A 199 −11.288 −9.285 −21.986 1.00 21.53 ATOM 1566 O GLY A 199 −11.546 −10.083 −22.879 1.00 22.36 ATOM 1567 N ALA A 200 −11.256 −9.615 −20.702 1.00 21.79 ATOM 1568 CA ALA A 200 −11.605 −10.956 −20.234 1.00 22.44 ATOM 1569 CB ALA A 200 −11.463 −11.038 −18.728 1.00 22.21 ATOM 1570 C ALA A 200 −13.016 −11.329 −20.696 1.00 22.54 ATOM 1571 O ALA A 200 −13.237 −12.419 −21.214 1.00 22.25 ATOM 1572 N THR A 201 −13.965 −10.403 −20.573 1.00 22.56 ATOM 1573 CA THR A 201 −15.345 −10.671 −20.989 1.00 22.77 ATOM 1574 CB THR A 201 −16.302 −9.527 −20.551 1.00 22.83 ATOM 1575 OG1 THR A 201 −16.219 −9.387 −19.134 1.00 24.92 ATOM 1576 CG2 THR A 201 −17.756 −9.819 −20.929 1.00 23.76 ATOM 1577 C THR A 201 −15.435 −10.905 −22.485 1.00 22.78 ATOM 1578 O THR A 201 −16.099 −11.851 −22.925 1.00 22.95 ATOM 1579 N LEU A 202 −14.760 −10.069 −23.275 1.00 21.78 ATOM 1580 CA LEU A 202 −14.805 −10.236 −24.717 1.00 22.62 ATOM 1581 CB LEU A 202 −14.149 −9.055 −25.434 1.00 22.14 ATOM 1582 CG LEU A 202 −14.142 −9.107 −26.964 1.00 23.10 ATOM 1583 CD1 LEU A 202 −15.544 −9.198 −27.564 1.00 24.20 ATOM 1584 CD2 LEU A 202 −13.346 −7.938 −27.570 1.00 22.53 ATOM 1585 C LEU A 202 −14.139 −11.552 −25.151 1.00 23.15 ATOM 1586 O LEU A 202 −14.649 −12.245 −26.036 1.00 22.90 ATOM 1587 N ALA A 203 −13.019 −11.883 −24.510 1.00 23.38 ATOM 1588 CA ALA A 203 −12.300 −13.129 −24.787 1.00 24.07 ATOM 1589 CB ALA A 203 −11.076 −13.229 −23.913 1.00 23.57 ATOM 1590 C ALA A 203 −13.211 −14.354 −24.569 1.00 24.38 ATOM 1591 O ALA A 203 −13.264 −15.244 −25.411 1.00 25.21 ATOM 1592 N ALA A 204 −13.920 −14.363 −23.447 1.00 25.20 ATOM 1593 CA ALA A 204 −14.849 −15.442 −23.093 1.00 26.63 ATOM 1594 CB ALA A 204 −15.450 −15.186 −21.727 1.00 26.12 ATOM 1595 C ALA A 204 −15.939 −15.583 −24.150 1.00 27.48 ATOM 1596 O ALA A 204 −16.267 −16.687 −24.564 1.00 28.39 ATOM 1597 N THR A 205 −16.494 −14.461 −24.593 1.00 27.71 ATOM 1598 CA THR A 205 −17.497 −14.470 −25.652 1.00 28.39 ATOM 1599 CB THR A 205 −18.088 −13.051 −25.855 1.00 28.42 ATOM 1600 OG1 THR A 205 −18.669 −12.631 −24.622 1.00 29.32 ATOM 1601 CG2 THR A 205 −19.150 −13.051 −26.932 1.00 27.32 ATOM 1602 C THR A 205 −16.968 −15.004 −26.981 1.00 28.72 ATOM 1603 O THR A 205 −17.697 −15.690 −27.719 1.00 29.06 ATOM 1604 N LEU A 206 −15.712 −14.698 −27.288 1.00 28.58 ATOM 1605 CA LEU A 206 −15.122 −15.122 −28.539 1.00 29.40 ATOM 1606 CB LEU A 206 −14.034 −14.144 −29.001 1.00 29.40 ATOM 1607 CG LEU A 206 −14.438 −12.694 −29.322 1.00 29.97 ATOM 1608 CD1 LEU A 206 −13.212 −11.899 −29.755 1.00 30.30 ATOM 1609 CD2 LEU A 206 −15.561 −12.629 −30.375 1.00 29.58 ATOM 1610 C LEU A 206 −14.540 −16.538 −28.489 1.00 29.55 ATOM 1611 O LEU A 206 −14.118 −17.054 −29.521 1.00 30.16 ATOM 1612 N GLY A 207 −14.500 −17.145 −27.307 1.00 30.30 ATOM 1613 CA GLY A 207 −13.786 −18.419 −27.122 1.00 30.91 ATOM 1614 C GLY A 207 −12.294 −18.274 −27.375 1.00 31.55 ATOM 1615 O GLY A 207 −11.654 −19.173 −27.935 1.00 31.31 ATOM 1616 N GLN A 208 −11.746 −17.115 −26.989 1.00 31.08 ATOM 1617 CA GLN A 208 −10.311 −16.877 −27.031 1.00 31.10 ATOM 1618 CB GLN A 208 −9.999 −15.540 −27.703 1.00 31.08 ATOM 1619 CG GLN A 208 −10.451 −15.455 −29.142 1.00 33.86 ATOM 1620 CD GLN A 208 −9.469 −16.059 −30.126 1.00 38.19 ATOM 1621 OE1 GLN A 208 −9.686 −15.999 −31.335 1.00 41.96 ATOM 1622 NE2 GLN A 208 −8.386 −16.633 −29.626 1.00 38.96 ATOM 1623 C GLN A 208 −9.765 −16.909 −25.611 1.00 30.45 ATOM 1624 O GLN A 208 −10.516 −17.048 −24.658 1.00 30.63 ATOM 1625 N SER A 209 −8.451 −16.816 −25.469 1.00 29.96 ATOM 1626 CA SER A 209 −7.841 −16.898 −24.160 1.00 30.04 ATOM 1627 CB SER A 209 −6.382 −17.343 −24.297 1.00 30.04 ATOM 1628 OG SER A 209 −5.763 −17.371 −23.030 1.00 32.75 ATOM 1629 C SER A 209 −7.948 −15.564 −23.409 1.00 29.53 ATOM 1630 O SER A 209 −7.493 −14.532 −23.908 1.00 29.85 ATOM 1631 N GLY A 210 −8.545 −15.594 −22.216 1.00 28.41 ATOM 1632 CA GLY A 210 −8.745 −14.388 −21.401 1.00 27.16 ATOM 1633 C GLY A 210 −8.344 −14.480 −19.938 1.00 26.83 ATOM 1634 O GLY A 210 −8.425 −13.498 −19.203 1.00 26.61 ATOM 1635 N SER A 211 −7.888 −15.648 −19.497 1.00 25.85 ATOM 1636 CA SER A 211 −7.651 −15.867 −18.067 1.00 25.26 ATOM 1637 CB SER A 211 −7.401 −17.353 −17.783 1.00 25.87 ATOM 1638 OG SER A 211 −6.315 −17.789 −18.573 1.00 26.62 ATOM 1639 C SER A 211 −6.509 −15.026 −17.498 1.00 24.55 ATOM 1640 O SER A 211 −6.542 −14.676 −16.311 1.00 24.46 ATOM 1641 N ALA A 212 −5.505 −14.712 −18.323 1.00 23.56 ATOM 1642 CA ALA A 212 −4.423 −13.816 −17.906 1.00 23.42 ATOM 1643 CB ALA A 212 −3.417 −13.622 −19.031 1.00 23.66 ATOM 1644 C ALA A 212 −4.999 −12.450 −17.496 1.00 23.54 ATOM 1645 O ALA A 212 −4.566 −11.848 −16.513 1.00 24.00 ATOM 1646 N TYR A 213 −5.970 −11.979 −18.271 1.00 22.79 ATOM 1647 CA TYR A 213 −6.594 −10.676 −18.017 1.00 22.18 ATOM 1648 CB TYR A 213 −7.453 −10.241 −19.193 1.00 21.74 ATOM 1649 CG TYR A 213 −6.761 −10.345 −20.515 1.00 20.05 ATOM 1650 CD1 TYR A 213 −7.461 −10.761 −21.637 1.00 20.58 ATOM 1651 CE1 TYR A 213 −6.854 −10.854 −22.868 1.00 21.95 ATOM 1652 CZ TYR A 213 −5.503 −10.545 −22.988 1.00 20.62 ATOM 1653 OH TYR A 213 −4.930 −10.668 −24.220 1.00 21.72 ATOM 1654 CE2 TYR A 213 −4.758 −10.149 −21.888 1.00 19.76 ATOM 1655 CD2 TYR A 213 −5.400 −10.038 −20.647 1.00 20.61 ATOM 1656 C TYR A 213 −7.423 −10.710 −16.758 1.00 23.06 ATOM 1657 O TYR A 213 −7.320 −9.804 −15.939 1.00 22.56 ATOM 1658 N SER A 214 −8.226 −11.767 −16.578 1.00 23.15 ATOM 1659 CA SER A 214 −9.064 −11.832 −15.392 1.00 23.90 ATOM 1660 CB SER A 214 −10.244 −12.798 −15.580 1.00 24.54 ATOM 1661 OG SER A 214 −9.776 −14.085 −15.939 1.00 27.95 ATOM 1662 C SER A 214 −8.259 −12.122 −14.122 1.00 23.64 ATOM 1663 O SER A 214 −8.676 −11.762 −13.026 1.00 23.43 ATOM 1664 N SER A 215 −7.095 −12.743 −14.248 1.00 23.82 ATOM 1665 CA SER A 215 −6.295 −12.970 −13.050 1.00 24.66 ATOM 1666 CB SER A 215 −5.390 −14.205 −13.200 1.00 25.70 ATOM 1667 OG SER A 215 −4.267 −13.914 −14.004 1.00 29.15 ATOM 1668 C SER A 215 −5.491 −11.739 −12.610 1.00 23.98 ATOM 1669 O SER A 215 −5.217 −11.561 −11.421 1.00 24.09 ATOM 1670 N VAL A 216 −5.115 −10.894 −13.566 1.00 22.89 ATOM 1671 CA VAL A 216 −4.347 −9.679 −13.272 1.00 22.50 ATOM 1672 CB VAL A 216 −3.442 −9.296 −14.493 1.00 22.52 ATOM 1673 CG1 VAL A 216 −2.855 −7.888 −14.369 1.00 24.11 ATOM 1674 CG2 VAL A 216 −2.296 −10.317 −14.652 1.00 22.49 ATOM 1675 C VAL A 216 −5.256 −8.520 −12.801 1.00 21.88 ATOM 1676 O VAL A 216 −4.869 −7.745 −11.936 1.00 21.84 ATOM 1677 N ALA A 217 −6.475 −8.440 −13.332 1.00 21.86 ATOM 1678 CA ALA A 217 −7.374 −7.303 −13.050 1.00 21.59 ATOM 1679 CB ALA A 217 −8.721 −7.479 −13.760 1.00 21.26 ATOM 1680 C ALA A 217 −7.571 −6.968 −11.558 1.00 21.55 ATOM 1681 O ALA A 217 −7.447 −5.804 −11.165 1.00 21.20 ATOM 1682 N PRO A 218 −7.842 −7.988 −10.701 1.00 21.95 ATOM 1683 CA PRO A 218 −8.030 −7.700 −9.282 1.00 21.59 ATOM 1684 CB PRO A 218 −8.283 −9.104 −8.670 1.00 22.29 ATOM 1685 CG PRO A 218 −8.789 −9.905 −9.789 1.00 22.61 ATOM 1686 CD PRO A 218 −7.966 −9.435 −10.963 1.00 22.11 ATOM 1687 C PRO A 218 −6.798 −7.065 −8.634 1.00 21.27 ATOM 1688 O PRO A 218 −6.928 −6.299 −7.680 1.00 20.92 ATOM 1689 N GLN A 219 −5.608 −7.386 −9.141 1.00 21.17 ATOM 1690 CA GLN A 219 −4.378 −6.786 −8.609 1.00 21.51 ATOM 1691 CB GLN A 219 −3.149 −7.569 −9.084 1.00 22.72 ATOM 1692 CG GLN A 219 −3.113 −8.985 −8.516 1.00 24.90 ATOM 1693 CD GLN A 219 −3.323 −8.982 −7.015 1.00 29.57 ATOM 1694 OE1 GLN A 219 −2.715 −8.188 −6.288 1.00 31.58 ATOM 1695 NE2 GLN A 219 −4.207 −9.843 −6.545 1.00 33.22 ATOM 1696 C GLN A 219 −4.240 −5.301 −8.996 1.00 21.04 ATOM 1697 O GLN A 219 −3.687 −4.490 −8.229 1.00 21.07 ATOM 1698 N VAL A 220 −4.728 −4.973 −10.187 1.00 20.00 ATOM 1699 CA VAL A 220 −4.746 −3.577 −10.630 1.00 19.34 ATOM 1700 CB VAL A 220 −5.098 −3.456 −12.128 1.00 19.63 ATOM 1701 CG1 VAL A 220 −4.991 −2.000 −12.581 1.00 19.15 ATOM 1702 CG2 VAL A 220 −4.162 −4.342 −12.974 1.00 17.97 ATOM 1703 C VAL A 220 −5.730 −2.809 −9.737 1.00 19.65 ATOM 1704 O VAL A 220 −5.419 −1.728 −9.257 1.00 18.97 ATOM 1705 N LEU A 221 −6.903 −3.391 −9.490 1.00 20.12 ATOM 1706 CA LEU A 221 −7.895 −2.776 −8.620 1.00 20.83 ATOM 1707 CB LEU A 221 −9.180 −3.602 −8.599 1.00 20.48 ATOM 1708 CG LEU A 221 −10.336 −2.991 −7.790 1.00 22.48 ATOM 1709 CD1 LEU A 221 −10.857 −1.726 −8.458 1.00 22.33 ATOM 1710 CD2 LEU A 221 −11.430 −4.011 −7.637 1.00 22.51 ATOM 1711 C LEU A 221 −7.360 −2.591 −7.192 1.00 21.44 ATOM 1712 O LEU A 221 −7.617 −1.578 −6.539 1.00 20.45 ATOM 1713 N CYS A 222 −6.600 −3.572 −6.718 1.00 22.60 ATOM 1714 CA CYS A 222 −5.957 −3.477 −5.415 1.00 22.10 ATOM 1715 CB CYS A 222 −5.159 −4.749 −5.125 1.00 23.41 ATOM 1716 SG CYS A 222 −4.975 −5.000 −3.356 1.00 28.49 ATOM 1717 C CYS A 222 −5.035 −2.270 −5.317 1.00 21.22 ATOM 1718 O CYS A 222 −5.060 −1.531 −4.331 1.00 21.24 ATOM 1719 N PHE A 223 −4.210 −2.070 −6.347 1.00 20.11 ATOM 1720 CA PHE A 223 −3.287 −0.955 −6.368 1.00 19.03 ATOM 1721 CB PHE A 223 −2.334 −1.108 −7.558 1.00 19.15 ATOM 1722 CG PHE A 223 −1.297 −0.011 −7.669 1.00 19.23 ATOM 1723 CD1 PHE A 223 −0.576 0.410 −6.558 1.00 19.90 ATOM 1724 CE1 PHE A 223 0.380 1.417 −6.661 1.00 20.91 ATOM 1725 CZ PHE A 223 0.645 2.017 −7.902 1.00 21.07 ATOM 1726 CE2 PHE A 223 −0.061 1.598 −9.024 1.00 18.81 ATOM 1727 CD2 PHE A 223 −1.022 0.581 −8.909 1.00 18.23 ATOM 1728 C PHE A 223 −4.032 0.397 −6.423 1.00 18.38 ATOM 1729 O PHE A 223 −3.597 1.376 −5.818 1.00 18.27 ATOM 1730 N LEU A 224 −5.148 0.428 −7.142 1.00 18.45 ATOM 1731 CA LEU A 224 −5.957 1.665 −7.277 1.00 18.42 ATOM 1732 CB LEU A 224 −7.208 1.403 −8.127 1.00 17.70 ATOM 1733 CG LEU A 224 −7.990 2.645 −8.610 1.00 19.73 ATOM 1734 CD1 LEU A 224 −7.133 3.427 −9.584 1.00 20.37 ATOM 1735 CD2 LEU A 224 −9.302 2.228 −9.264 1.00 18.64 ATOM 1736 C LEU A 224 −6.385 2.226 −5.917 1.00 18.87 ATOM 1737 O LEU A 224 −6.553 3.438 −5.757 1.00 18.45 ATOM 1738 N GLN A 225 −6.578 1.336 −4.944 1.00 19.17 ATOM 1739 CA GLN A 225 −6.984 1.743 −3.585 1.00 20.00 ATOM 1740 CB GLN A 225 −7.340 0.511 −2.725 1.00 20.26 ATOM 1741 CG GLN A 225 −8.295 −0.463 −3.409 1.00 21.22 ATOM 1742 CD GLN A 225 −9.519 0.225 −3.993 1.00 22.53 ATOM 1743 OE1 GLN A 225 −10.280 0.870 −3.262 1.00 23.09 ATOM 1744 NE2 GLN A 225 −9.718 0.092 −5.302 1.00 19.33 ATOM 1745 C GLN A 225 −5.944 2.599 −2.871 1.00 20.19 ATOM 1746 O GLN A 225 −6.299 3.399 −2.009 1.00 20.64 ATOM 1747 N ARG A 226 −4.678 2.450 −3.253 1.00 20.51 ATOM 1748 CA ARG A 226 −3.564 3.144 −2.608 1.00 21.40 ATOM 1749 CB ARG A 226 −2.219 2.505 −2.990 1.00 22.72 ATOM 1750 CG ARG A 226 −2.081 1.010 −2.683 1.00 26.14 ATOM 1751 CD ARG A 226 −1.806 0.741 −1.204 1.00 32.16 ATOM 1752 NE ARG A 226 −3.035 0.843 −0.432 1.00 37.77 ATOM 1753 CZ ARG A 226 −3.997 −0.079 −0.413 1.00 41.09 ATOM 1754 NH1 ARG A 226 −5.093 0.120 0.322 1.00 42.17 ATOM 1755 NH2 ARG A 226 −3.874 −1.196 −1.127 1.00 42.78 ATOM 1756 C ARG A 226 −3.499 4.645 −2.915 1.00 21.23 ATOM 1757 O ARG A 226 −2.723 5.358 −2.288 1.00 20.95 ATOM 1758 N PHE A 227 −4.298 5.123 −3.869 1.00 20.28 ATOM 1759 CA PHE A 227 −4.280 6.545 −4.250 1.00 19.67 ATOM 1760 CB PHE A 227 −4.777 6.704 −5.693 1.00 19.40 ATOM 1761 CG PHE A 227 −3.814 6.195 −6.744 1.00 18.28 ATOM 1762 CD1 PHE A 227 −3.733 4.831 −7.040 1.00 18.14 ATOM 1763 CE1 PHE A 227 −2.855 4.355 −8.046 1.00 18.24 ATOM 1764 CZ PHE A 227 −2.034 5.264 −8.748 1.00 16.75 ATOM 1765 CE2 PHE A 227 −2.113 6.641 −8.456 1.00 18.79 ATOM 1766 CD2 PHE A 227 −3.005 7.091 −7.452 1.00 17.51 ATOM 1767 C PHE A 227 −5.126 7.435 −3.343 1.00 20.55 ATOM 1768 O PHE A 227 −4.967 8.659 −3.334 1.00 20.38 ATOM 1769 N TRP A 228 −6.032 6.820 −2.583 1.00 20.72 ATOM 1770 CA TRP A 228 −6.924 7.545 −1.671 1.00 20.71 ATOM 1771 CB TRP A 228 −8.036 6.596 −1.211 1.00 20.41 ATOM 1772 CG TRP A 228 −9.030 7.228 −0.283 1.00 20.59 ATOM 1773 CD1 TRP A 228 −9.243 6.915 1.040 1.00 21.81 ATOM 1774 NE1 TRP A 228 −10.255 7.722 1.557 1.00 22.69 ATOM 1775 CE2 TRP A 228 −10.712 8.553 0.565 1.00 20.71 ATOM 1776 CD2 TRP A 228 −9.958 8.280 −0.607 1.00 18.88 ATOM 1777 CE3 TRP A 228 −10.225 9.014 −1.772 1.00 18.79 ATOM 1778 CZ3 TRP A 228 −11.209 9.986 −1.734 1.00 20.13 ATOM 1779 CH2 TRP A 228 −11.937 10.242 −0.552 1.00 21.18 ATOM 1780 CZ2 TRP A 228 −11.710 9.537 0.601 1.00 21.65 ATOM 1781 C TRP A 228 −6.193 8.120 −0.463 1.00 21.38 ATOM 1782 O TRP A 228 −5.479 7.394 0.236 1.00 21.50 ATOM 1783 N VAL A 229 −6.379 9.416 −0.209 1.00 21.95 ATOM 1784 CA VAL A 229 −5.844 10.065 0.983 1.00 22.99 ATOM 1785 CB VAL A 229 −5.205 11.436 0.654 1.00 22.81 ATOM 1786 CG1 VAL A 229 −4.490 12.026 1.871 1.00 23.48 ATOM 1787 CG2 VAL A 229 −4.226 11.292 −0.493 1.00 23.28 ATOM 1788 C VAL A 229 −6.984 10.206 2.000 1.00 24.08 ATOM 1789 O VAL A 229 −7.803 11.119 1.899 1.00 23.70 ATOM 1790 N SER A 230 −7.044 9.298 2.974 1.00 25.37 ATOM 1791 CA SER A 230 −8.193 9.290 3.905 1.00 27.59 ATOM 1792 CB SER A 230 −8.254 8.000 4.728 1.00 27.67 ATOM 1793 OG SER A 230 −7.029 7.805 5.402 1.00 31.30 ATOM 1794 C SER A 230 −8.241 10.513 4.820 1.00 27.93 ATOM 1795 O SER A 230 −9.321 10.983 5.174 1.00 28.91 ATOM 1796 N SER A 231 −7.088 11.059 5.165 1.00 28.76 ATOM 1797 CA SER A 231 −7.059 12.237 6.030 1.00 29.72 ATOM 1798 CB SER A 231 −5.671 12.461 6.639 1.00 30.39 ATOM 1799 OG SER A 231 −4.703 12.713 5.635 1.00 34.43 ATOM 1800 C SER A 231 −7.566 13.491 5.323 1.00 29.39 ATOM 1801 O SER A 231 −8.154 14.364 5.966 1.00 30.97 ATOM 1802 N GLY A 232 −7.373 13.579 4.005 1.00 27.59 ATOM 1803 CA GLY A 232 −7.867 14.728 3.247 1.00 25.22 ATOM 1804 C GLY A 232 −9.181 14.518 2.493 1.00 23.25 ATOM 1805 O GLY A 232 −9.810 15.487 2.077 1.00 23.19 ATOM 1806 N GLY A 233 −9.589 13.265 2.320 1.00 20.97 ATOM 1807 CA GLY A 233 −10.809 12.937 1.578 1.00 19.35 ATOM 1808 C GLY A 233 −10.673 13.226 0.094 1.00 18.83 ATOM 1809 O GLY A 233 −11.636 13.655 −0.561 1.00 19.20 ATOM 1810 N TYR A 234 −9.487 12.977 −0.463 1.00 17.56 ATOM 1811 CA TYR A 234 −9.309 13.155 −1.915 1.00 17.17 ATOM 1812 CB TYR A 234 −8.851 14.584 −2.232 1.00 18.33 ATOM 1813 CG TYR A 234 −7.441 14.876 −1.758 1.00 20.39 ATOM 1814 CD1 TYR A 234 −7.203 15.340 −0.454 1.00 20.72 ATOM 1815 CE1 TYR A 234 −5.905 15.594 −0.018 1.00 24.11 ATOM 1816 CZ TYR A 234 −4.840 15.399 −0.897 1.00 23.78 ATOM 1817 OH TYR A 234 −3.556 15.663 −0.483 1.00 26.50 ATOM 1818 CE2 TYR A 234 −5.055 14.956 −2.187 1.00 24.07 ATOM 1819 CD2 TYR A 234 −6.353 14.699 −2.611 1.00 20.58 ATOM 1820 C TYR A 234 −8.318 12.141 −2.482 1.00 16.60 ATOM 1821 O TYR A 234 −7.615 11.465 −1.735 1.00 16.29 ATOM 1822 N VAL A 235 −8.260 12.059 −3.805 1.00 15.36 ATOM 1823 CA VAL A 235 −7.325 11.164 −4.472 1.00 15.62 ATOM 1824 CB VAL A 235 −7.948 10.638 −5.798 1.00 15.96 ATOM 1825 CG1 VAL A 235 −6.889 9.893 −6.645 1.00 17.31 ATOM 1826 CG2 VAL A 235 −9.134 9.723 −5.506 1.00 15.87 ATOM 1827 C VAL A 235 −6.011 11.904 −4.742 1.00 15.54 ATOM 1828 O VAL A 235 −6.006 12.998 −5.320 1.00 15.39 ATOM 1829 N ASP A 236 −4.886 11.316 −4.325 1.00 15.24 ATOM 1830 CA ASP A 236 −3.580 11.837 −4.705 1.00 15.22 ATOM 1831 CB ASP A 236 −2.533 11.431 −3.652 1.00 16.45 ATOM 1832 CG ASP A 236 −1.145 11.922 −3.970 1.00 18.62 ATOM 1833 OD1 ASP A 236 −0.937 12.617 −4.992 1.00 17.17 ATOM 1834 OD2 ASP A 236 −0.223 11.568 −3.182 1.00 22.79 ATOM 1835 C ASP A 236 −3.303 11.256 −6.098 1.00 15.06 ATOM 1836 O ASP A 236 −3.088 10.040 −6.261 1.00 15.39 ATOM 1837 N SER A 237 −3.384 12.104 −7.125 1.00 14.24 ATOM 1838 CA SER A 237 −3.518 11.587 −8.503 1.00 14.09 ATOM 1839 CB SER A 237 −4.000 12.697 −9.446 1.00 13.76 ATOM 1840 OG SER A 237 −5.312 13.094 −9.070 1.00 14.52 ATOM 1841 C SER A 237 −2.277 10.883 −9.053 1.00 14.22 ATOM 1842 O SER A 237 −2.376 10.067 −9.965 1.00 13.80 ATOM 1843 N ASN A 238 −1.099 11.219 −8.521 1.00 14.70 ATOM 1844 CA ASN A 238 0.116 10.547 −8.952 1.00 15.28 ATOM 1845 CB ASN A 238 0.968 11.439 −9.856 1.00 14.84 ATOM 1846 CG ASN A 238 0.277 11.742 −11.176 1.00 17.08 ATOM 1847 OD1 ASN A 238 0.244 10.901 −12.072 1.00 16.61 ATOM 1848 ND2 ASN A 238 −0.308 12.932 −11.278 1.00 16.63 ATOM 1849 C ASN A 238 0.912 10.150 −7.736 1.00 16.07 ATOM 1850 O ASN A 238 1.169 10.988 −6.890 1.00 15.88 ATOM 1851 N ILE A 239 1.280 8.875 −7.659 1.00 16.09 ATOM 1852 CA ILE A 239 2.125 8.410 −6.567 1.00 18.07 ATOM 1853 CB ILE A 239 1.340 7.452 −5.600 1.00 17.66 ATOM 1854 CG1 ILE A 239 0.893 6.180 −6.336 1.00 18.85 ATOM 1855 CD1 ILE A 239 0.184 5.109 −5.437 1.00 19.02 ATOM 1856 CG2 ILE A 239 0.116 8.194 −4.974 1.00 16.96 ATOM 1857 C ILE A 239 3.381 7.760 −7.169 1.00 19.32 ATOM 1858 O ILE A 239 3.571 7.797 −8.392 1.00 19.19 ATOM 1859 N ASN A 240 4.242 7.170 −6.329 1.00 20.56 ATOM 1860 CA ASN A 240 5.517 6.617 −6.823 1.00 22.24 ATOM 1861 CB ASN A 240 5.275 5.385 −7.717 1.00 21.93 ATOM 1862 CG ASN A 240 4.874 4.153 −6.926 1.00 24.19 ATOM 1863 OD1 ASN A 240 5.269 3.995 −5.772 1.00 25.98 ATOM 1864 ND2 ASN A 240 4.083 3.278 −7.538 1.00 22.26 ATOM 1865 C ASN A 240 6.334 7.677 −7.571 1.00 23.27 ATOM 1866 O ASN A 240 7.000 7.381 −8.562 1.00 23.15 ATOM 1867 N THR A 241 6.261 8.919 −7.096 1.00 25.02 ATOM 1868 CA THR A 241 6.939 10.038 −7.729 1.00 28.12 ATOM 1869 CB THR A 241 6.044 10.720 −8.817 1.00 28.09 ATOM 1870 OG1 THR A 241 6.741 11.836 −9.369 1.00 28.75 ATOM 1871 CG2 THR A 241 4.727 11.208 −8.231 1.00 28.30 ATOM 1872 C THR A 241 7.302 11.065 −6.674 1.00 29.96 ATOM 1873 O THR A 241 6.749 11.037 −5.589 1.00 30.58 ATOM 1874 N ASN A 242 8.209 11.984 −6.991 1.00 33.17 ATOM 1875 CA ASN A 242 8.585 13.019 −6.024 1.00 36.07 ATOM 1876 CB ASN A 242 10.059 12.880 −5.616 1.00 37.13 ATOM 1877 CG ASN A 242 10.324 11.631 −4.771 1.00 40.96 ATOM 1878 OD1 ASN A 242 9.509 11.235 −3.921 1.00 45.33 ATOM 1879 ND2 ASN A 242 11.477 11.007 −4.998 1.00 44.43 ATOM 1880 C ASN A 242 8.321 14.427 −6.528 1.00 37.00 ATOM 1881 O ASN A 242 9.091 15.346 −6.245 1.00 37.94 ATOM 1882 N GLU A 243 7.210 14.602 −7.233 1.00 37.54 ATOM 1883 CA GLU A 243 6.895 15.869 −7.907 1.00 38.05 ATOM 1884 CB GLU A 243 5.775 15.638 −8.925 1.00 38.77 ATOM 1885 CG GLU A 243 5.650 16.732 −9.977 1.00 42.65 ATOM 1886 CD GLU A 243 6.959 16.985 −10.709 1.00 47.49 ATOM 1887 OE1 GLU A 243 7.424 16.084 −11.453 1.00 49.14 ATOM 1888 OE2 GLU A 243 7.520 18.090 −10.532 1.00 50.15 ATOM 1889 C GLU A 243 6.559 17.088 −7.015 1.00 37.15 ATOM 1890 O GLU A 243 6.645 18.240 −7.469 1.00 38.39 ATOM 1891 N GLY A 244 6.174 16.873 −5.766 1.00 35.69 ATOM 1892 CA GLY A 244 5.858 18.019 −4.911 1.00 33.51 ATOM 1893 C GLY A 244 4.609 18.775 −5.369 1.00 31.80 ATOM 1894 O GLY A 244 4.634 19.999 −5.535 1.00 33.32 ATOM 1895 N ARG A 245 3.529 18.036 −5.612 1.00 27.92 ATOM 1896 CA ARG A 245 2.200 18.618 −5.781 1.00 24.21 ATOM 1897 CB ARG A 245 1.638 18.224 −7.130 1.00 24.30 ATOM 1898 CG ARG A 245 2.410 18.842 −8.275 1.00 24.62 ATOM 1899 CD ARG A 245 1.625 18.681 −9.532 1.00 22.11 ATOM 1900 NE ARG A 245 2.462 18.829 −10.713 1.00 21.13 ATOM 1901 CZ ARG A 245 2.114 18.302 −11.878 1.00 21.50 ATOM 1902 NH1 ARG A 245 0.982 17.621 −11.945 1.00 18.57 ATOM 1903 NH2 ARG A 245 2.883 18.443 −12.951 1.00 20.83 ATOM 1904 C ARG A 245 1.295 18.040 −4.718 1.00 21.84 ATOM 1905 O ARG A 245 1.624 17.021 −4.128 1.00 20.65 ATOM 1906 N THR A 246 0.140 18.652 −4.483 1.00 19.15 ATOM 1907 CA THR A 246 −0.824 18.058 −3.540 1.00 17.46 ATOM 1908 CB THR A 246 −1.989 18.997 −3.238 1.00 17.87 ATOM 1909 OG1 THR A 246 −2.752 19.155 −4.440 1.00 15.85 ATOM 1910 CG2 THR A 246 −1.495 20.370 −2.730 1.00 17.50 ATOM 1911 C THR A 246 −1.426 16.769 −4.103 1.00 17.25 ATOM 1912 O THR A 246 −1.884 15.914 −3.351 1.00 17.57 ATOM 1913 N GLY A 247 −1.482 16.646 −5.430 1.00 15.60 ATOM 1914 CA GLY A 247 −2.148 15.492 −6.054 1.00 15.02 ATOM 1915 C GLY A 247 −3.609 15.761 −6.396 1.00 14.69 ATOM 1916 O GLY A 247 −4.260 14.939 −7.059 1.00 14.45 ATOM 1917 N LYS A 248 −4.137 16.890 −5.928 1.00 13.43 ATOM 1918 CA LYS A 248 −5.508 17.286 −6.259 1.00 13.00 ATOM 1919 CB LYS A 248 −5.969 18.453 −5.396 1.00 12.32 ATOM 1920 CG LYS A 248 −5.965 18.179 −3.881 1.00 13.12 ATOM 1921 CD LYS A 248 −6.133 19.493 −3.102 1.00 14.08 ATOM 1922 CE LYS A 248 −5.985 19.253 −1.584 1.00 17.84 ATOM 1923 NZ LYS A 248 −6.335 20.492 −0.835 1.00 16.74 ATOM 1924 C LYS A 248 −5.490 17.713 −7.736 1.00 12.73 ATOM 1925 O LYS A 248 −4.866 18.707 −8.104 1.00 12.75 ATOM 1926 N ASP A 249 −6.185 16.964 −8.580 1.00 11.92 ATOM 1927 CA ASP A 249 −5.958 17.098 −10.024 1.00 11.16 ATOM 1928 CB ASP A 249 −4.761 16.199 −10.385 1.00 10.83 ATOM 1929 CG ASP A 249 −4.268 16.349 −11.831 1.00 12.54 ATOM 1930 OD1 ASP A 249 −5.078 16.422 −12.785 1.00 11.42 ATOM 1931 OD2 ASP A 249 −3.025 16.342 −12.001 1.00 13.30 ATOM 1932 C ASP A 249 −7.232 16.577 −10.662 1.00 11.38 ATOM 1933 O ASP A 249 −7.774 15.542 −10.236 1.00 10.86 ATOM 1934 N VAL A 250 −7.700 17.265 −11.703 1.00 11.28 ATOM 1935 CA VAL A 250 −8.885 16.793 −12.438 1.00 11.59 ATOM 1936 CB VAL A 250 −9.366 17.859 −13.493 1.00 12.49 ATOM 1937 CG1 VAL A 250 −8.480 17.815 −14.728 1.00 13.03 ATOM 1938 CG2 VAL A 250 −10.859 17.654 −13.852 1.00 13.75 ATOM 1939 C VAL A 250 −8.711 15.386 −13.064 1.00 11.77 ATOM 1940 O VAL A 250 −9.698 14.750 −13.467 1.00 11.71 ATOM 1941 N ASN A 251 −7.461 14.925 −13.168 1.00 10.73 ATOM 1942 CA ASN A 251 −7.131 13.491 −13.378 1.00 11.20 ATOM 1943 CB ASN A 251 −5.699 13.265 −12.813 1.00 10.94 ATOM 1944 CG ASN A 251 −5.221 11.810 −12.892 1.00 11.58 ATOM 1945 OD1 ASN A 251 −5.986 10.864 −12.672 1.00 12.47 ATOM 1946 ND2 ASN A 251 −3.898 11.639 −13.164 1.00 14.40 ATOM 1947 C ASN A 251 −8.151 12.560 −12.706 1.00 10.99 ATOM 1948 O ASN A 251 −8.755 11.706 −13.355 1.00 11.49 ATOM 1949 N SER A 252 −8.407 12.774 −11.417 1.00 11.45 ATOM 1950 CA SER A 252 −9.293 11.876 −10.634 1.00 11.79 ATOM 1951 CB SER A 252 −9.062 12.155 −9.149 1.00 13.31 ATOM 1952 OG SER A 252 −9.338 13.524 −8.882 1.00 13.41 ATOM 1953 C SER A 252 −10.784 12.002 −10.996 1.00 11.39 ATOM 1954 O SER A 252 −11.532 11.023 −10.964 1.00 12.69 ATOM 1955 N VAL A 253 −11.199 13.203 −11.383 1.00 10.56 ATOM 1956 CA VAL A 253 −12.582 13.459 −11.821 1.00 10.70 ATOM 1957 CB VAL A 253 −12.884 15.004 −11.856 1.00 11.02 ATOM 1958 CG1 VAL A 253 −14.335 15.262 −12.345 1.00 11.24 ATOM 1959 CG2 VAL A 253 −12.711 15.585 −10.449 1.00 10.91 ATOM 1960 C VAL A 253 −12.810 12.827 −13.187 1.00 11.38 ATOM 1961 O VAL A 253 −13.824 12.143 −13.407 1.00 11.69 ATOM 1962 N LEU A 254 −11.866 13.059 −14.108 1.00 11.32 ATOM 1963 CA LEU A 254 −11.891 12.393 −15.417 1.00 12.12 ATOM 1964 CB LEU A 254 −10.635 12.759 −16.238 1.00 11.95 ATOM 1965 CG LEU A 254 −10.634 14.202 −16.763 1.00 12.23 ATOM 1966 CD1 LEU A 254 −9.266 14.564 −17.330 1.00 12.77 ATOM 1967 CD2 LEU A 254 −11.714 14.371 −17.845 1.00 15.26 ATOM 1968 C LEU A 254 −11.963 10.872 −15.271 1.00 12.22 ATOM 1969 O LEU A 254 −12.675 10.201 −16.024 1.00 12.01 ATOM 1970 N THR A 255 −11.208 10.338 −14.315 1.00 11.58 ATOM 1971 CA THR A 255 −11.219 8.913 −14.042 1.00 12.53 ATOM 1972 CB THR A 255 −10.267 8.552 −12.890 1.00 12.83 ATOM 1973 OG1 THR A 255 −8.935 8.933 −13.240 1.00 13.00 ATOM 1974 CG2 THR A 255 −10.300 7.035 −12.634 1.00 15.06 ATOM 1975 C THR A 255 −12.632 8.448 −13.705 1.00 13.12 ATOM 1976 O THR A 255 −13.131 7.467 −14.285 1.00 13.49 ATOM 1977 N SER A 256 −13.289 9.158 −12.790 1.00 13.46 ATOM 1978 CA SER A 256 −14.641 8.781 −12.343 1.00 12.85 ATOM 1979 CB SER A 256 −15.152 9.760 −11.282 1.00 13.40 ATOM 1980 OG SER A 256 −16.332 9.252 −10.674 1.00 16.69 ATOM 1981 C SER A 256 −15.610 8.705 −13.518 1.00 13.13 ATOM 1982 O SER A 256 −16.360 7.711 −13.654 1.00 13.10 ATOM 1983 N ILE A 257 −15.594 9.728 −14.377 1.00 12.32 ATOM 1984 CA ILE A 257 −16.523 9.784 −15.513 1.00 12.32 ATOM 1985 CB ILE A 257 −16.747 11.215 −16.072 1.00 11.55 ATOM 1986 CG1 ILE A 257 −15.482 11.773 −16.764 1.00 11.38 ATOM 1987 CD1 ILE A 257 −15.699 13.143 −17.441 1.00 13.23 ATOM 1988 CG2 ILE A 257 −17.257 12.166 −14.942 1.00 13.70 ATOM 1989 C ILE A 257 −16.220 8.795 −16.653 1.00 12.79 ATOM 1990 O ILE A 257 −17.150 8.319 −17.338 1.00 13.25 ATOM 1991 N HIS A 258 −14.941 8.487 −16.855 1.00 12.71 ATOM 1992 CA HIS A 258 −14.565 7.566 −17.931 1.00 13.41 ATOM 1993 CB HIS A 258 −13.194 7.947 −18.498 1.00 12.06 ATOM 1994 CG HIS A 258 −13.268 9.175 −19.341 1.00 13.92 ATOM 1995 ND1 HIS A 258 −13.942 9.196 −20.547 1.00 16.01 ATOM 1996 CE1 HIS A 258 −13.891 10.421 −21.047 1.00 18.57 ATOM 1997 NE2 HIS A 258 −13.256 11.199 −20.189 1.00 14.08 ATOM 1998 CD2 HIS A 258 −12.861 10.449 −19.108 1.00 13.51 ATOM 1999 C HIS A 258 −14.649 6.091 −17.565 1.00 14.12 ATOM 2000 O HIS A 258 −14.645 5.239 −18.454 1.00 14.90 ATOM 2001 N THR A 259 −14.752 5.801 −16.274 1.00 13.93 ATOM 2002 CA THR A 259 −15.034 4.420 −15.807 1.00 14.91 ATOM 2003 CB THR A 259 −13.933 3.856 −14.899 1.00 14.46 ATOM 2004 OG1 THR A 259 −13.788 4.647 −13.705 1.00 15.66 ATOM 2005 CG2 THR A 259 −12.589 3.802 −15.677 1.00 15.81 ATOM 2006 C THR A 259 −16.433 4.248 −15.173 1.00 14.21 ATOM 2007 O THR A 259 −16.709 3.235 −14.546 1.00 14.95 ATOM 2008 N PHE A 260 −17.290 5.238 −15.367 1.00 14.76 ATOM 2009 CA PHE A 260 −18.691 5.194 −14.926 1.00 15.13 ATOM 2010 CB PHE A 260 −19.377 6.492 −15.379 1.00 15.81 ATOM 2011 CG PHE A 260 −20.886 6.508 −15.228 1.00 15.47 ATOM 2012 CD1 PHE A 260 −21.505 6.188 −14.015 1.00 17.59 ATOM 2013 CE1 PHE A 260 −22.903 6.259 −13.898 1.00 19.11 ATOM 2014 CZ PHE A 260 −23.682 6.653 −14.991 1.00 17.18 ATOM 2015 CE2 PHE A 260 −23.082 6.994 −16.178 1.00 18.04 ATOM 2016 CD2 PHE A 260 −21.679 6.917 −16.296 1.00 17.22 ATOM 2017 C PHE A 260 −19.436 3.977 −15.475 1.00 15.55 ATOM 2018 O PHE A 260 −19.426 3.725 −16.684 1.00 15.81 ATOM 2019 N ASP A 261 −20.093 3.235 −14.586 1.00 15.51 ATOM 2020 CA ASP A 261 −21.008 2.176 −15.006 1.00 16.05 ATOM 2021 CB ASP A 261 −20.303 0.813 −15.015 1.00 16.46 ATOM 2022 CG ASP A 261 −21.205 −0.321 −15.490 1.00 17.60 ATOM 2023 OD1 ASP A 261 −22.440 −0.122 −15.579 1.00 18.97 ATOM 2024 OD2 ASP A 261 −20.656 −1.404 −15.810 1.00 18.29 ATOM 2025 C ASP A 261 −22.117 2.185 −13.972 1.00 16.30 ATOM 2026 O ASP A 261 −21.882 1.809 −12.840 1.00 15.53 ATOM 2027 N PRO A 262 −23.320 2.610 −14.374 1.00 18.21 ATOM 2028 CA PRO A 262 −24.438 2.716 −13.412 1.00 20.39 ATOM 2029 CB PRO A 262 −25.589 3.308 −14.247 1.00 20.43 ATOM 2030 CG PRO A 262 −25.235 3.044 −15.669 1.00 20.06 ATOM 2031 CD PRO A 262 −23.709 2.994 −15.734 1.00 17.40 ATOM 2032 C PRO A 262 −24.815 1.382 −12.753 1.00 22.31 ATOM 2033 O PRO A 262 −25.356 1.374 −11.622 1.00 22.24 ATOM 2034 N ASN A 263 −24.508 0.267 −13.421 1.00 22.99 ATOM 2035 CA ASN A 263 −24.750 −1.048 −12.838 1.00 25.42 ATOM 2036 CB ASN A 263 −24.574 −2.149 −13.890 1.00 26.62 ATOM 2037 CG ASN A 263 −25.680 −2.128 −14.948 1.00 30.74 ATOM 2038 OD1 ASN A 263 −26.688 −1.419 −14.814 1.00 35.92 ATOM 2039 ND2 ASN A 263 −25.490 −2.906 −16.007 1.00 35.87 ATOM 2040 C ASN A 263 −23.894 −1.316 −11.598 1.00 25.45 ATOM 2041 O ASN A 263 −24.210 −2.190 −10.795 1.00 26.56 ATOM 2042 N LEU A 264 −22.835 −0.529 −11.413 1.00 24.54 ATOM 2043 CA LEU A 264 −22.022 −0.616 −10.213 1.00 24.27 ATOM 2044 CB LEU A 264 −20.549 −0.287 −10.520 1.00 24.43 ATOM 2045 CG LEU A 264 −19.752 −1.346 −11.288 1.00 25.38 ATOM 2046 CD1 LEU A 264 −18.375 −0.809 −11.659 1.00 26.05 ATOM 2047 CD2 LEU A 264 −19.619 −2.672 −10.523 1.00 26.24 ATOM 2048 C LEU A 264 −22.542 0.273 −9.066 1.00 23.47 ATOM 2049 O LEU A 264 −21.956 0.292 −7.988 1.00 23.97 ATOM 2050 N GLY A 265 −23.631 1.000 −9.292 1.00 23.32 ATOM 2051 CA GLY A 265 −24.218 1.840 −8.237 1.00 22.74 ATOM 2052 C GLY A 265 −23.204 2.843 −7.729 1.00 21.84 ATOM 2053 O GLY A 265 −22.416 3.373 −8.510 1.00 22.83 ATOM 2054 N CYS A 266 −23.175 3.086 −6.424 1.00 21.37 ATOM 2055 CA CYS A 266 −22.233 4.073 −5.883 1.00 21.00 ATOM 2056 CB CYS A 266 −22.947 5.049 −4.936 1.00 20.86 ATOM 2057 SG CYS A 266 −24.347 5.912 −5.711 1.00 20.96 ATOM 2058 C CYS A 266 −20.992 3.427 −5.275 1.00 20.98 ATOM 2059 O CYS A 266 −20.513 3.814 −4.203 1.00 21.01 ATOM 2060 N ASP A 267 −20.462 2.443 −6.002 1.00 20.39 ATOM 2061 CA ASP A 267 −19.303 1.686 −5.577 1.00 20.67 ATOM 2062 CB ASP A 267 −18.961 0.621 −6.618 1.00 20.84 ATOM 2063 CG ASP A 267 −17.666 −0.101 −6.288 1.00 24.28 ATOM 2064 OD1 ASP A 267 −16.852 −0.322 −7.200 1.00 25.84 ATOM 2065 OD2 ASP A 267 −17.455 −0.407 −5.098 1.00 27.46 ATOM 2066 C ASP A 267 −18.072 2.567 −5.391 1.00 19.78 ATOM 2067 O ASP A 267 −17.593 3.161 −6.353 1.00 18.61 ATOM 2068 N ALA A 268 −17.544 2.621 −4.174 1.00 18.35 ATOM 2069 CA ALA A 268 −16.315 3.395 −3.944 1.00 19.35 ATOM 2070 CB ALA A 268 −16.207 3.868 −2.472 1.00 19.46 ATOM 2071 C ALA A 268 −15.017 2.701 −4.415 1.00 19.46 ATOM 2072 O ALA A 268 −14.009 3.371 −4.665 1.00 19.42 ATOM 2073 N GLY A 269 −15.029 1.370 −4.534 1.00 19.01 ATOM 2074 CA GLY A 269 −13.826 0.644 −4.936 1.00 19.17 ATOM 2075 C GLY A 269 −13.370 1.032 −6.343 1.00 18.75 ATOM 2076 O GLY A 269 −12.175 1.134 −6.624 1.00 19.54 ATOM 2077 N THR A 270 −14.330 1.257 −7.230 1.00 17.92 ATOM 2078 CA THR A 270 −14.016 1.662 −8.594 1.00 18.35 ATOM 2079 CB THR A 270 −14.852 0.882 −9.616 1.00 18.43 ATOM 2080 OG1 THR A 270 −16.246 1.085 −9.350 1.00 18.51 ATOM 2081 CG2 THR A 270 −14.529 −0.626 −9.555 1.00 19.75 ATOM 2082 C THR A 270 −14.261 3.172 −8.771 1.00 18.25 ATOM 2083 O THR A 270 −14.326 3.674 −9.904 1.00 17.88 ATOM 2084 N PHE A 271 −14.434 3.880 −7.650 1.00 17.17 ATOM 2085 CA PHE A 271 −14.531 5.359 −7.656 1.00 17.38 ATOM 2086 CB PHE A 271 −13.183 5.965 −8.121 1.00 17.67 ATOM 2087 CG PHE A 271 −12.946 7.376 −7.673 1.00 21.97 ATOM 2088 CD1 PHE A 271 −12.656 7.653 −6.337 1.00 24.90 ATOM 2089 CE1 PHE A 271 −12.447 8.981 −5.923 1.00 24.46 ATOM 2090 CZ PHE A 271 −12.474 10.043 −6.863 1.00 23.20 ATOM 2091 CE2 PHE A 271 −12.733 9.783 −8.196 1.00 21.92 ATOM 2092 CD2 PHE A 271 −12.956 8.436 −8.599 1.00 24.30 ATOM 2093 C PHE A 271 −15.677 5.856 −8.551 1.00 16.63 ATOM 2094 O PHE A 271 −15.479 6.764 −9.358 1.00 15.93 ATOM 2095 N GLN A 272 −16.861 5.249 −8.439 1.00 15.21 ATOM 2096 CA GLN A 272 −18.011 5.673 −9.251 1.00 14.97 ATOM 2097 CB GLN A 272 −19.227 4.755 −9.013 1.00 14.93 ATOM 2098 CG GLN A 272 −19.021 3.355 −9.615 1.00 16.30 ATOM 2099 CD GLN A 272 −18.755 3.413 −11.102 1.00 15.81 ATOM 2100 OE1 GLN A 272 −19.575 3.909 −11.883 1.00 16.97 ATOM 2101 NE2 GLN A 272 −17.617 2.861 −11.512 1.00 18.50 ATOM 2102 C GLN A 272 −18.402 7.118 −8.929 1.00 14.73 ATOM 2103 O GLN A 272 −18.194 7.555 −7.800 1.00 15.60 ATOM 2104 N PRO A 273 −18.955 7.859 −9.914 1.00 14.45 ATOM 2105 CA PRO A 273 −19.342 9.255 −9.682 1.00 14.57 ATOM 2106 CB PRO A 273 −20.157 9.597 −10.927 1.00 14.64 ATOM 2107 CG PRO A 273 −19.443 8.767 −12.031 1.00 14.70 ATOM 2108 CD PRO A 273 −19.156 7.458 −11.326 1.00 14.10 ATOM 2109 C PRO A 273 −20.162 9.542 −8.407 1.00 15.22 ATOM 2110 O PRO A 273 −19.910 10.562 −7.752 1.00 15.03 ATOM 2111 N CYS A 274 −21.130 8.682 −8.075 1.00 15.76 ATOM 2112 CA CYS A 274 −21.926 8.913 −6.853 1.00 16.22 ATOM 2113 CB CYS A 274 −23.389 8.489 −7.039 1.00 16.57 ATOM 2114 SG CYS A 274 −23.611 6.769 −7.423 1.00 17.39 ATOM 2115 C CYS A 274 −21.331 8.281 −5.605 1.00 16.64 ATOM 2116 O CYS A 274 −21.958 8.329 −4.529 1.00 16.55 ATOM 2117 N SER A 275 −20.137 7.681 −5.715 1.00 15.61 ATOM 2118 CA SER A 275 −19.476 7.117 −4.528 1.00 15.81 ATOM 2119 CB SER A 275 −18.244 6.253 −4.877 1.00 15.06 ATOM 2120 OG SER A 275 −17.144 7.041 −5.315 1.00 14.92 ATOM 2121 C SER A 275 −19.097 8.232 −3.545 1.00 16.06 ATOM 2122 O SER A 275 −18.818 9.366 −3.949 1.00 14.39 ATOM 2123 N ASP A 276 −19.103 7.919 −2.248 1.00 16.42 ATOM 2124 CA ASP A 276 −18.731 8.935 −1.271 1.00 16.52 ATOM 2125 CB ASP A 276 −19.020 8.511 0.189 1.00 16.27 ATOM 2126 CG ASP A 276 −18.244 7.281 0.656 1.00 19.14 ATOM 2127 OD1 ASP A 276 −18.371 7.001 1.873 1.00 19.62 ATOM 2128 OD2 ASP A 276 −17.544 6.593 −0.120 1.00 17.10 ATOM 2129 C ASP A 276 −17.312 9.469 −1.492 1.00 16.17 ATOM 2130 O ASP A 276 −17.084 10.683 −1.415 1.00 15.20 ATOM 2131 N LYS A 277 −16.381 8.577 −1.823 1.00 15.43 ATOM 2132 CA LYS A 277 −14.994 8.982 −2.115 1.00 15.34 ATOM 2133 CB LYS A 277 −14.089 7.763 −2.326 1.00 15.23 ATOM 2134 CG LYS A 277 −13.924 6.905 −1.059 1.00 17.01 ATOM 2135 CD LYS A 277 −12.752 5.929 −1.204 1.00 21.20 ATOM 2136 CE LYS A 277 −12.662 5.017 0.015 1.00 22.94 ATOM 2137 NZ LYS A 277 −11.533 4.067 −0.165 1.00 29.19 ATOM 2138 C LYS A 277 −14.900 9.915 −3.324 1.00 14.30 ATOM 2139 O LYS A 277 −14.152 10.887 −3.288 1.00 14.70 ATOM 2140 N ALA A 278 −15.644 9.620 −4.393 1.00 14.45 ATOM 2141 CA ALA A 278 −15.588 10.464 −5.605 1.00 13.61 ATOM 2142 CB ALA A 278 −16.250 9.775 −6.783 1.00 13.30 ATOM 2143 C ALA A 278 −16.210 11.827 −5.357 1.00 13.50 ATOM 2144 O ALA A 278 −15.730 12.840 −5.864 1.00 13.02 ATOM 2145 N LEU A 279 −17.283 11.855 −4.565 1.00 13.22 ATOM 2146 CA LEU A 279 −17.936 13.132 −4.239 1.00 12.92 ATOM 2147 CB LEU A 279 −19.323 12.893 −3.625 1.00 13.21 ATOM 2148 CG LEU A 279 −20.384 12.358 −4.601 1.00 13.94 ATOM 2149 CD1 LEU A 279 −21.707 11.969 −3.887 1.00 17.68 ATOM 2150 CD2 LEU A 279 −20.653 13.319 −5.781 1.00 17.52 ATOM 2151 C LEU A 279 −17.065 13.995 −3.348 1.00 12.84 ATOM 2152 O LEU A 279 −16.941 15.203 −3.577 1.00 13.54 ATOM 2153 N SER A 280 −16.463 13.390 −2.315 1.00 12.45 ATOM 2154 CA SER A 280 −15.502 14.106 −1.459 1.00 13.53 ATOM 2155 CB SER A 280 −14.951 13.168 −0.364 1.00 13.65 ATOM 2156 OG SER A 280 −14.008 13.863 0.468 1.00 15.07 ATOM 2157 C SER A 280 −14.332 14.672 −2.285 1.00 14.09 ATOM 2158 O SER A 280 −13.925 15.856 −2.130 1.00 13.43 ATOM 2159 N ASN A 281 −13.795 13.830 −3.166 1.00 13.27 ATOM 2160 CA ASN A 281 −12.690 14.257 −4.027 1.00 13.19 ATOM 2161 CB ASN A 281 −12.239 13.078 −4.888 1.00 12.05 ATOM 2162 CG ASN A 281 −11.116 13.455 −5.849 1.00 13.13 ATOM 2163 OD1 ASN A 281 −9.989 13.637 −5.446 1.00 13.26 ATOM 2164 ND2 ASN A 281 −11.442 13.573 −7.124 1.00 11.63 ATOM 2165 C ASN A 281 −13.096 15.432 −4.933 1.00 12.33 ATOM 2166 O ASN A 281 −12.330 16.380 −5.109 1.00 13.49 ATOM 2167 N LEU A 282 −14.287 15.355 −5.506 1.00 12.05 ATOM 2168 CA LEU A 282 −14.760 16.422 −6.376 1.00 13.21 ATOM 2169 CB LEU A 282 −16.147 16.109 −6.949 1.00 12.17 ATOM 2170 CG LEU A 282 −16.791 17.216 −7.820 1.00 14.57 ATOM 2171 CD1 LEU A 282 −16.011 17.378 −9.126 1.00 16.58 ATOM 2172 CD2 LEU A 282 −18.241 16.863 −8.170 1.00 15.68 ATOM 2173 C LEU A 282 −14.739 17.754 −5.638 1.00 12.69 ATOM 2174 O LEU A 282 −14.201 18.735 −6.153 1.00 13.45 ATOM 2175 N LYS A 283 −15.283 17.791 −4.415 1.00 12.75 ATOM 2176 CA LYS A 283 −15.306 19.026 −3.656 1.00 12.89 ATOM 2177 CB LYS A 283 −16.079 18.860 −2.334 1.00 12.90 ATOM 2178 CG LYS A 283 −15.912 20.089 −1.432 1.00 13.94 ATOM 2179 CD LYS A 283 −16.909 20.076 −0.252 1.00 14.67 ATOM 2180 CE LYS A 283 −16.530 21.136 0.797 1.00 13.67 ATOM 2181 NZ LYS A 283 −16.315 22.489 0.212 1.00 19.03 ATOM 2182 C LYS A 283 −13.889 19.537 −3.385 1.00 12.43 ATOM 2183 O LYS A 283 −13.612 20.710 −3.556 1.00 12.14 ATOM 2184 N VAL A 284 −12.988 18.652 −2.966 1.00 12.02 ATOM 2185 CA VAL A 284 −11.624 19.055 −2.633 1.00 12.77 ATOM 2186 CB VAL A 284 −10.845 17.875 −2.014 1.00 13.17 ATOM 2187 CG1 VAL A 284 −9.320 18.169 −1.936 1.00 13.21 ATOM 2188 CG2 VAL A 284 −11.391 17.557 −0.630 1.00 15.81 ATOM 2189 C VAL A 284 −10.927 19.599 −3.881 1.00 12.74 ATOM 2190 O VAL A 284 −10.228 20.636 −3.827 1.00 12.21 ATOM 2191 N VAL A 285 −11.153 18.927 −5.012 1.00 11.54 ATOM 2192 CA VAL A 285 −10.560 19.389 −6.287 1.00 12.35 ATOM 2193 CB VAL A 285 −10.694 18.330 −7.425 1.00 12.36 ATOM 2194 CG1 VAL A 285 −10.316 18.944 −8.813 1.00 12.25 ATOM 2195 CG2 VAL A 285 −9.795 17.104 −7.140 1.00 13.25 ATOM 2196 C VAL A 285 −11.130 20.770 −6.712 1.00 12.08 ATOM 2197 O VAL A 285 −10.367 21.696 −6.989 1.00 12.60 ATOM 2198 N VAL A 286 −12.452 20.913 −6.728 1.00 11.87 ATOM 2199 CA VAL A 286 −13.089 22.196 −7.074 1.00 12.87 ATOM 2200 CB VAL A 286 −14.631 22.080 −7.038 1.00 13.01 ATOM 2201 CG1 VAL A 286 −15.300 23.468 −7.140 1.00 14.31 ATOM 2202 CG2 VAL A 286 −15.103 21.157 −8.200 1.00 14.42 ATOM 2203 C VAL A 286 −12.586 23.324 −6.164 1.00 12.84 ATOM 2204 O VAL A 286 −12.206 24.402 −6.635 1.00 13.75 ATOM 2205 N ASP A 287 −12.552 23.064 −4.853 1.00 12.85 ATOM 2206 CA ASP A 287 −12.116 24.059 −3.870 1.00 13.90 ATOM 2207 CB ASP A 287 −12.199 23.506 −2.440 1.00 13.12 ATOM 2208 CG ASP A 287 −13.637 23.441 −1.924 1.00 16.00 ATOM 2209 OD1 ASP A 287 −14.541 24.002 −2.583 1.00 16.20 ATOM 2210 OD2 ASP A 287 −13.857 22.835 −0.858 1.00 16.76 ATOM 2211 C ASP A 287 −10.727 24.564 −4.136 1.00 14.28 ATOM 2212 O ASP A 287 −10.425 25.722 −3.841 1.00 15.53 ATOM 2213 N SER A 288 −9.862 23.709 −4.677 1.00 14.50 ATOM 2214 CA SER A 288 −8.478 24.093 −4.949 1.00 14.58 ATOM 2215 CB SER A 288 −7.625 22.843 −5.229 1.00 14.15 ATOM 2216 OG SER A 288 −7.758 22.417 −6.565 1.00 13.73 ATOM 2217 C SER A 288 −8.326 25.186 −6.038 1.00 14.61 ATOM 2218 O SER A 288 −7.274 25.847 −6.143 1.00 14.59 ATOM 2219 N PHE A 289 −9.392 25.416 −6.809 1.00 13.99 ATOM 2220 CA PHE A 289 −9.419 26.447 −7.831 1.00 14.09 ATOM 2221 CB PHE A 289 −9.994 25.882 −9.135 1.00 13.52 ATOM 2222 CG PHE A 289 −9.169 24.807 −9.704 1.00 11.38 ATOM 2223 CD1 PHE A 289 −7.976 25.114 −10.367 1.00 12.17 ATOM 2224 CE1 PHE A 289 −7.184 24.095 −10.905 1.00 13.93 ATOM 2225 CZ PHE A 289 −7.572 22.783 −10.771 1.00 13.96 ATOM 2226 CE2 PHE A 289 −8.756 22.452 −10.097 1.00 11.77 ATOM 2227 CD2 PHE A 289 −9.555 23.472 −9.571 1.00 11.08 ATOM 2228 C PHE A 289 −10.219 27.698 −7.491 1.00 14.73 ATOM 2229 O PHE A 289 −10.092 28.713 −8.189 1.00 14.71 ATOM 2230 N ARG A 290 −11.054 27.621 −6.464 1.00 15.09 ATOM 2231 CA ARG A 290 −11.953 28.740 −6.140 1.00 16.64 ATOM 2232 CB ARG A 290 −12.842 28.401 −4.936 1.00 15.99 ATOM 2233 CG ARG A 290 −13.913 27.375 −5.230 1.00 15.65 ATOM 2234 CD ARG A 290 −14.821 27.163 −4.012 1.00 16.79 ATOM 2235 NE ARG A 290 −15.843 26.172 −4.330 1.00 15.04 ATOM 2236 CZ ARG A 290 −16.986 26.470 −4.933 1.00 17.22 ATOM 2237 NH1 ARG A 290 −17.248 27.734 −5.243 1.00 15.41 ATOM 2238 NH2 ARG A 290 −17.855 25.511 −5.239 1.00 15.94 ATOM 2239 C ARG A 290 −11.240 30.046 −5.864 1.00 18.04 ATOM 2240 O ARG A 290 −11.690 31.125 −6.279 1.00 19.61 ATOM 2241 N SER A 291 −10.150 29.984 −5.128 1.00 19.44 ATOM 2242 CA SER A 291 −9.571 31.246 −4.667 1.00 21.57 ATOM 2243 CB SER A 291 −9.146 31.101 −3.212 1.00 22.18 ATOM 2244 OG SER A 291 −7.998 30.284 −3.144 1.00 28.35 ATOM 2245 C SER A 291 −8.423 31.762 −5.534 1.00 20.65 ATOM 2246 O SER A 291 −7.865 32.851 −5.272 1.00 22.43 ATOM 2247 N ILE A 292 −8.066 31.019 −6.576 1.00 19.16 ATOM 2248 CA ILE A 292 −6.855 31.367 −7.330 1.00 17.65 ATOM 2249 CB ILE A 292 −5.805 30.185 −7.408 1.00 18.07 ATOM 2250 CG1 ILE A 292 −6.379 28.972 −8.194 1.00 17.67 ATOM 2251 CD1 ILE A 292 −5.315 27.924 −8.649 1.00 17.27 ATOM 2252 CG2 ILE A 292 −5.341 29.795 −5.994 1.00 18.29 ATOM 2253 C ILE A 292 −7.065 31.973 −8.708 1.00 17.20 ATOM 2254 O ILE A 292 −6.136 32.563 −9.251 1.00 16.35 ATOM 2255 N TYR A 293 −8.252 31.797 −9.290 1.00 15.85 ATOM 2256 CA TYR A 293 −8.509 32.304 −10.648 1.00 15.83 ATOM 2257 CB TYR A 293 −9.301 31.270 −11.474 1.00 15.43 ATOM 2258 CG TYR A 293 −8.571 30.014 −11.886 1.00 15.10 ATOM 2259 CD1 TYR A 293 −7.183 29.960 −11.965 1.00 14.38 ATOM 2260 CE1 TYR A 293 −6.540 28.795 −12.395 1.00 14.38 ATOM 2261 CZ TYR A 293 −7.306 27.685 −12.743 1.00 14.90 ATOM 2262 OH TYR A 293 −6.700 26.522 −13.158 1.00 15.55 ATOM 2263 CE2 TYR A 293 −8.670 27.722 −12.671 1.00 15.47 ATOM 2264 CD2 TYR A 293 −9.298 28.875 −12.255 1.00 13.91 ATOM 2265 C TYR A 293 −9.351 33.581 −10.591 1.00 15.69 ATOM 2266 O TYR A 293 −10.404 33.594 −9.942 1.00 15.47 ATOM 2267 N GLY A 294 −8.892 34.629 −11.276 1.00 14.83 ATOM 2268 CA GLY A 294 −9.641 35.899 −11.353 1.00 15.57 ATOM 2269 C GLY A 294 −11.078 35.702 −11.858 1.00 15.93 ATOM 2270 O GLY A 294 −12.010 36.359 −11.376 1.00 15.66 ATOM 2271 N VAL A 295 −11.288 34.773 −12.799 1.00 15.60 ATOM 2272 CA VAL A 295 −12.651 34.520 −13.270 1.00 16.24 ATOM 2273 CB VAL A 295 −12.753 33.561 −14.501 1.00 16.31 ATOM 2274 CG1 VAL A 295 −12.170 34.195 −15.740 1.00 16.26 ATOM 2275 CG2 VAL A 295 −12.128 32.184 −14.199 1.00 16.19 ATOM 2276 C VAL A 295 −13.596 34.013 −12.172 1.00 16.97 ATOM 2277 O VAL A 295 −14.813 34.108 −12.320 1.00 18.03 ATOM 2278 N ASN A 296 −13.047 33.463 −11.092 1.00 16.93 ATOM 2279 CA ASN A 296 −13.878 32.920 −10.020 1.00 17.69 ATOM 2280 CB ASN A 296 −13.250 31.633 −9.472 1.00 17.57 ATOM 2281 CG ASN A 296 −13.296 30.493 −10.482 1.00 16.44 ATOM 2282 OD1 ASN A 296 −14.158 30.481 −11.356 1.00 17.29 ATOM 2283 ND2 ASN A 296 −12.401 29.513 −10.336 1.00 15.99 ATOM 2284 C ASN A 296 −14.187 33.915 −8.896 1.00 19.30 ATOM 2285 O ASN A 296 −14.945 33.601 −7.979 1.00 19.07 ATOM 2286 N LYS A 297 −13.617 35.116 −9.007 1.00 20.37 ATOM 2287 CA LYS A 297 −13.811 36.203 −8.038 1.00 22.43 ATOM 2288 CB LYS A 297 −13.209 37.502 −8.584 1.00 22.90 ATOM 2289 CG LYS A 297 −11.741 37.680 −8.316 1.00 30.03 ATOM 2290 CD LYS A 297 −11.401 39.189 −8.309 1.00 35.34 ATOM 2291 CE LYS A 297 −12.247 39.913 −7.255 1.00 39.86 ATOM 2292 NZ LYS A 297 −11.995 41.386 −7.178 1.00 42.72 ATOM 2293 C LYS A 297 −15.275 36.453 −7.782 1.00 21.89 ATOM 2294 O LYS A 297 −16.061 36.585 −8.712 1.00 21.96 ATOM 2295 N GLY A 298 −15.659 36.537 −6.517 1.00 22.72 ATOM 2296 CA GLY A 298 −17.050 36.869 −6.219 1.00 22.99 ATOM 2297 C GLY A 298 −18.043 35.720 −6.278 1.00 23.54 ATOM 2298 O GLY A 298 −19.180 35.885 −5.855 1.00 25.04 ATOM 2299 N ILE A 299 −17.647 34.546 −6.784 1.00 22.16 ATOM 2300 CA ILE A 299 −18.574 33.393 −6.763 1.00 21.47 ATOM 2301 CB ILE A 299 −18.251 32.350 −7.884 1.00 21.22 ATOM 2302 CG1 ILE A 299 −18.356 32.985 −9.274 1.00 19.64 ATOM 2303 CD1 ILE A 299 −17.740 32.095 −10.415 1.00 19.76 ATOM 2304 CG2 ILE A 299 −19.163 31.091 −7.762 1.00 20.54 ATOM 2305 C ILE A 299 −18.562 32.740 −5.375 1.00 22.34 ATOM 2306 O ILE A 299 −17.486 32.395 −4.861 1.00 22.29 ATOM 2307 N PRO A 300 −19.743 32.580 −4.751 1.00 23.04 ATOM 2308 CA PRO A 300 −19.791 32.018 −3.392 1.00 23.60 ATOM 2309 CB PRO A 300 −21.217 32.364 −2.922 1.00 24.19 ATOM 2310 CG PRO A 300 −22.015 32.437 −4.178 1.00 23.80 ATOM 2311 CD PRO A 300 −21.085 32.934 −5.253 1.00 23.06 ATOM 2312 C PRO A 300 −19.584 30.500 −3.322 1.00 23.50 ATOM 2313 O PRO A 300 −19.664 29.810 −4.347 1.00 22.46 ATOM 2314 N ALA A 301 −19.325 29.985 −2.116 1.00 22.68 ATOM 2315 CA ALA A 301 −19.380 28.549 −1.905 1.00 22.89 ATOM 2316 CB ALA A 301 −18.988 28.185 −0.465 1.00 23.54 ATOM 2317 C ALA A 301 −20.788 28.074 −2.236 1.00 21.91 ATOM 2318 O ALA A 301 −21.759 28.834 −2.108 1.00 23.09 ATOM 2319 N GLY A 302 −20.898 26.838 −2.698 1.00 20.96 ATOM 2320 CA GLY A 302 −22.173 26.272 −3.115 1.00 19.69 ATOM 2321 C GLY A 302 −22.565 26.637 −4.537 1.00 19.78 ATOM 2322 O GLY A 302 −23.661 26.283 −4.991 1.00 19.32 ATOM 2323 N ALA A 303 −21.686 27.355 −5.235 1.00 17.97 ATOM 2324 CA ALA A 303 −21.948 27.708 −6.635 1.00 17.13 ATOM 2325 CB ALA A 303 −22.168 29.212 −6.812 1.00 16.73 ATOM 2326 C ALA A 303 −20.784 27.245 −7.481 1.00 16.19 ATOM 2327 O ALA A 303 −19.647 27.171 −7.004 1.00 16.23 ATOM 2328 N ALA A 304 −21.067 26.956 −8.746 1.00 15.66 ATOM 2329 CA ALA A 304 −20.069 26.378 −9.640 1.00 15.10 ATOM 2330 CB ALA A 304 −20.750 25.795 −10.860 1.00 15.80 ATOM 2331 C ALA A 304 −19.002 27.394 −10.044 1.00 14.74 ATOM 2332 O ALA A 304 −19.270 28.587 −10.121 1.00 14.27 ATOM 2333 N VAL A 305 −17.783 26.914 −10.300 1.00 14.18 ATOM 2334 CA VAL A 305 −16.680 27.783 −10.698 1.00 13.54 ATOM 2335 CB VAL A 305 −15.656 27.971 −9.543 1.00 13.42 ATOM 2336 CG1 VAL A 305 −16.224 28.881 −8.418 1.00 14.25 ATOM 2337 CG2 VAL A 305 −15.218 26.597 −8.966 1.00 14.99 ATOM 2338 C VAL A 305 −15.952 27.141 −11.873 1.00 13.34 ATOM 2339 O VAL A 305 −16.121 25.944 −12.126 1.00 12.46 ATOM 2340 N ALA A 306 −15.130 27.921 −12.562 1.00 13.38 ATOM 2341 CA ALA A 306 −14.233 27.376 −13.573 1.00 14.37 ATOM 2342 CB ALA A 306 −13.709 28.504 −14.470 1.00 15.32 ATOM 2343 C ALA A 306 −13.082 26.626 −12.938 1.00 14.68 ATOM 2344 O ALA A 306 −12.457 27.116 −11.974 1.00 15.21 ATOM 2345 N ILE A 307 −12.781 25.452 −13.484 1.00 13.50 ATOM 2346 CA ILE A 307 −11.667 24.668 −12.975 1.00 13.67 ATOM 2347 CB ILE A 307 −12.134 23.438 −12.163 1.00 14.45 ATOM 2348 CG1 ILE A 307 −12.756 22.386 −13.072 1.00 15.37 ATOM 2349 CD1 ILE A 307 −12.921 21.033 −12.368 1.00 19.15 ATOM 2350 CG2 ILE A 307 −13.119 23.848 −11.005 1.00 15.52 ATOM 2351 C ILE A 307 −10.646 24.290 −14.059 1.00 12.52 ATOM 2352 O ILE A 307 −10.974 24.232 −15.264 1.00 12.22 ATOM 2353 N GLY A 308 −9.405 24.095 −13.604 1.00 11.71 ATOM 2354 CA GLY A 308 −8.276 23.737 −14.452 1.00 11.64 ATOM 2355 C GLY A 308 −7.853 22.306 −14.199 1.00 11.62 ATOM 2356 O GLY A 308 −8.667 21.444 −13.806 1.00 12.05 ATOM 2357 N ARG A 309 −6.583 22.026 −14.454 1.00 11.39 ATOM 2358 CA ARG A 309 −6.091 20.661 −14.337 1.00 11.23 ATOM 2359 CB ARG A 309 −4.896 20.467 −15.275 1.00 11.37 ATOM 2360 CG ARG A 309 −5.220 20.697 −16.791 1.00 11.29 ATOM 2361 CD ARG A 309 −4.066 20.130 −17.625 1.00 12.62 ATOM 2362 NE ARG A 309 −2.845 20.919 −17.425 1.00 12.15 ATOM 2363 CZ ARG A 309 −1.701 20.665 −18.047 1.00 15.00 ATOM 2364 NH1 ARG A 309 −1.630 19.633 −18.910 1.00 12.05 ATOM 2365 NH2 ARG A 309 −0.624 21.395 −17.778 1.00 13.85 ATOM 2366 C ARG A 309 −5.654 20.425 −12.888 1.00 11.83 ATOM 2367 O ARG A 309 −6.093 19.481 −12.221 1.00 11.38 ATOM 2368 N TYR A 310 −4.806 21.322 −12.399 1.00 11.88 ATOM 2369 CA TYR A 310 −4.293 21.215 −11.022 1.00 11.17 ATOM 2370 CB TYR A 310 −3.225 20.082 −10.878 1.00 12.49 ATOM 2371 CG TYR A 310 −2.065 20.201 −11.844 1.00 13.10 ATOM 2372 CD1 TYR A 310 −2.128 19.622 −13.138 1.00 12.57 ATOM 2373 CE1 TYR A 310 −1.069 19.772 −14.039 1.00 15.63 ATOM 2374 CZ TYR A 310 0.065 20.475 −13.649 1.00 14.31 ATOM 2375 OH TYR A 310 1.119 20.611 −14.529 1.00 14.42 ATOM 2376 CE2 TYR A 310 0.159 21.030 −12.379 1.00 12.68 ATOM 2377 CD2 TYR A 310 −0.909 20.906 −11.485 1.00 14.04 ATOM 2378 C TYR A 310 −3.779 22.596 −10.644 1.00 12.74 ATOM 2379 O TYR A 310 −3.333 23.356 −11.505 1.00 12.44 ATOM 2380 N ALA A 311 −3.872 22.945 −9.362 1.00 11.99 ATOM 2381 CA ALA A 311 −3.618 24.337 −8.975 1.00 13.33 ATOM 2382 CB ALA A 311 −4.084 24.589 −7.508 1.00 12.88 ATOM 2383 C ALA A 311 −2.157 24.768 −9.197 1.00 13.50 ATOM 2384 O ALA A 311 −1.906 25.951 −9.468 1.00 14.52 ATOM 2385 N GLU A 312 −1.216 23.823 −9.140 1.00 13.52 ATOM 2386 CA GLU A 312 0.219 24.134 −9.332 1.00 14.23 ATOM 2387 CB GLU A 312 1.111 23.020 −8.790 1.00 15.44 ATOM 2388 CG GLU A 312 0.933 22.802 −7.303 1.00 16.54 ATOM 2389 CD GLU A 312 −0.130 21.762 −6.950 1.00 18.91 ATOM 2390 OE1 GLU A 312 −0.941 21.338 −7.808 1.00 16.89 ATOM 2391 OE2 GLU A 312 −0.150 21.345 −5.778 1.00 18.72 ATOM 2392 C GLU A 312 0.591 24.380 −10.796 1.00 14.80 ATOM 2393 O GLU A 312 1.741 24.736 −11.100 1.00 14.98 ATOM 2394 N ASP A 313 −0.374 24.197 −11.697 1.00 13.37 ATOM 2395 CA ASP A 313 −0.112 24.258 −13.155 1.00 13.71 ATOM 2396 CB ASP A 313 −1.457 24.079 −13.888 1.00 12.88 ATOM 2397 CG ASP A 313 −1.320 23.671 −15.343 1.00 14.44 ATOM 2398 OD1 ASP A 313 −0.197 23.597 −15.900 1.00 13.19 ATOM 2399 OD2 ASP A 313 −2.400 23.406 −15.923 1.00 13.61 ATOM 2400 C ASP A 313 0.512 25.589 −13.587 1.00 14.00 ATOM 2401 O ASP A 313 0.007 26.662 −13.219 1.00 14.35 ATOM 2402 N VAL A 314 1.577 25.530 −14.399 1.00 13.84 ATOM 2403 CA VAL A 314 2.145 26.747 −14.988 1.00 15.19 ATOM 2404 CB VAL A 314 3.602 27.016 −14.520 1.00 16.70 ATOM 2405 CG1 VAL A 314 3.638 27.295 −13.009 1.00 17.94 ATOM 2406 CG2 VAL A 314 4.551 25.857 −14.915 1.00 16.69 ATOM 2407 C VAL A 314 2.123 26.729 −16.528 1.00 15.30 ATOM 2408 O VAL A 314 2.712 27.598 −17.165 1.00 15.13 ATOM 2409 N TYR A 315 1.441 25.743 −17.111 1.00 14.51 ATOM 2410 CA TYR A 315 1.351 25.634 −18.580 1.00 15.65 ATOM 2411 CB TYR A 315 0.768 24.264 −18.957 1.00 15.82 ATOM 2412 CG TYR A 315 0.694 23.988 −20.457 1.00 16.29 ATOM 2413 CD1 TYR A 315 1.824 24.124 −21.265 1.00 17.01 ATOM 2414 CE1 TYR A 315 1.778 23.859 −22.634 1.00 18.92 ATOM 2415 CZ TYR A 315 0.588 23.421 −23.208 1.00 16.14 ATOM 2416 OH TYR A 315 0.557 23.164 −24.577 1.00 16.95 ATOM 2417 CE2 TYR A 315 −0.552 23.261 −22.423 1.00 15.41 ATOM 2418 CD2 TYR A 315 −0.492 23.539 −21.044 1.00 14.48 ATOM 2419 C TYR A 315 0.489 26.777 −19.107 1.00 15.56 ATOM 2420 O TYR A 315 −0.688 26.888 −18.748 1.00 16.36 ATOM 2421 N TYR A 316 1.072 27.645 −19.944 1.00 16.61 ATOM 2422 CA TYR A 316 0.404 28.890 −20.380 1.00 17.53 ATOM 2423 CB TYR A 316 −0.778 28.603 −21.337 1.00 18.31 ATOM 2424 CG TYR A 316 −0.329 28.321 −22.742 1.00 19.74 ATOM 2425 CD1 TYR A 316 −0.071 27.026 −23.169 1.00 18.95 ATOM 2426 CE1 TYR A 316 0.353 26.757 −24.466 1.00 18.69 ATOM 2427 CZ TYR A 316 0.551 27.812 −25.342 1.00 21.77 ATOM 2428 OH TYR A 316 1.002 27.557 −26.617 1.00 23.75 ATOM 2429 CE2 TYR A 316 0.329 29.125 −24.932 1.00 22.39 ATOM 2430 CD2 TYR A 316 −0.111 29.369 −23.639 1.00 21.90 ATOM 2431 C TYR A 316 −0.037 29.730 −19.173 1.00 17.87 ATOM 2432 O TYR A 316 −0.968 30.517 −19.266 1.00 17.06 ATOM 2433 N ASN A 317 0.689 29.555 −18.066 1.00 18.34 ATOM 2434 CA ASN A 317 0.483 30.231 −16.766 1.00 19.27 ATOM 2435 CB ASN A 317 0.106 31.699 −16.921 1.00 20.01 ATOM 2436 CG ASN A 317 1.171 32.489 −17.624 1.00 24.51 ATOM 2437 OD1 ASN A 317 2.363 32.384 −17.305 1.00 29.46 ATOM 2438 ND2 ASN A 317 0.756 33.269 −18.603 1.00 29.08 ATOM 2439 C ASN A 317 −0.506 29.551 −15.842 1.00 18.28 ATOM 2440 O ASN A 317 −0.706 30.001 −14.719 1.00 19.05 ATOM 2441 N GLY A 318 −1.114 28.459 −16.300 1.00 17.74 ATOM 2442 CA GLY A 318 −2.086 27.721 −15.475 1.00 15.34 ATOM 2443 C GLY A 318 −3.458 28.356 −15.550 1.00 15.47 ATOM 2444 O GLY A 318 −3.700 29.390 −14.932 1.00 15.75 ATOM 2445 N ASN A 319 −4.369 27.733 −16.306 1.00 13.16 ATOM 2446 CA ASN A 319 −5.672 28.305 −16.557 1.00 12.74 ATOM 2447 CB ASN A 319 −5.693 28.883 −17.980 1.00 12.31 ATOM 2448 CG ASN A 319 −4.676 29.979 −18.187 1.00 13.01 ATOM 2449 OD1 ASN A 319 −4.832 31.117 −17.699 1.00 14.18 ATOM 2450 ND2 ASN A 319 −3.640 29.665 −18.942 1.00 11.49 ATOM 2451 C ASN A 319 −6.799 27.271 −16.442 1.00 12.27 ATOM 2452 O ASN A 319 −6.545 26.071 −16.456 1.00 12.28 ATOM 2453 N PRO A 320 −8.054 27.732 −16.334 1.00 12.96 ATOM 2454 CA PRO A 320 −9.113 26.759 −16.472 1.00 12.58 ATOM 2455 CB PRO A 320 −10.395 27.579 −16.324 1.00 13.28 ATOM 2456 CG PRO A 320 −10.007 29.011 −16.183 1.00 14.34 ATOM 2457 CD PRO A 320 −8.537 29.090 −15.991 1.00 12.66 ATOM 2458 C PRO A 320 −9.101 26.090 −17.851 1.00 12.18 ATOM 2459 O PRO A 320 −8.643 26.698 −18.820 1.00 11.99 ATOM 2460 N TRP A 321 −9.589 24.852 −17.912 1.00 11.79 ATOM 2461 CA TRP A 321 −9.739 24.116 −19.154 1.00 11.97 ATOM 2462 CB TRP A 321 −8.988 22.775 −19.063 1.00 11.15 ATOM 2463 CG TRP A 321 −7.469 22.900 −19.200 1.00 12.16 ATOM 2464 CD1 TRP A 321 −6.658 23.837 −18.627 1.00 13.28 ATOM 2465 NE1 TRP A 321 −5.347 23.636 −19.016 1.00 13.24 ATOM 2466 CE2 TRP A 321 −5.290 22.538 −19.831 1.00 13.51 ATOM 2467 CD2 TRP A 321 −6.617 22.054 −19.978 1.00 12.68 ATOM 2468 CE3 TRP A 321 −6.846 20.938 −20.787 1.00 14.41 ATOM 2469 CZ3 TRP A 321 −5.741 20.323 −21.428 1.00 13.49 ATOM 2470 CH2 TRP A 321 −4.436 20.819 −21.250 1.00 13.43 ATOM 2471 CZ2 TRP A 321 −4.193 21.948 −20.479 1.00 14.69 ATOM 2472 C TRP A 321 −11.202 23.797 −19.342 1.00 11.99 ATOM 2473 O TRP A 321 −11.875 23.448 −18.388 1.00 11.51 ATOM 2474 N TYR A 322 −11.696 23.896 −20.579 1.00 11.47 ATOM 2475 CA TYR A 322 −13.088 23.511 −20.841 1.00 11.31 ATOM 2476 CB TYR A 322 −13.433 23.691 −22.322 1.00 12.14 ATOM 2477 CG TYR A 322 −13.352 25.130 −22.793 1.00 12.81 ATOM 2478 CD1 TYR A 322 −12.260 25.574 −23.509 1.00 11.43 ATOM 2479 CE1 TYR A 322 −12.173 26.914 −23.965 1.00 12.91 ATOM 2480 CZ TYR A 322 −13.216 27.802 −23.697 1.00 14.27 ATOM 2481 OH TYR A 322 −13.127 29.104 −24.146 1.00 15.10 ATOM 2482 CE2 TYR A 322 −14.324 27.373 −22.982 1.00 13.40 ATOM 2483 CD2 TYR A 322 −14.378 26.031 −22.522 1.00 11.58 ATOM 2484 C TYR A 322 −13.367 22.082 −20.433 1.00 11.31 ATOM 2485 O TYR A 322 −14.380 21.795 −19.771 1.00 11.08 ATOM 2486 N LEU A 323 −12.480 21.169 −20.814 1.00 10.96 ATOM 2487 CA LEU A 323 −12.770 19.750 −20.561 1.00 11.04 ATOM 2488 CB LEU A 323 −11.787 18.844 −21.315 1.00 11.26 ATOM 2489 CG LEU A 323 −10.314 18.876 −20.903 1.00 10.53 ATOM 2490 CD1 LEU A 323 −10.074 17.902 −19.745 1.00 14.57 ATOM 2491 CD2 LEU A 323 −9.474 18.437 −22.112 1.00 13.19 ATOM 2492 C LEU A 323 −12.778 19.449 −19.048 1.00 11.68 ATOM 2493 O LEU A 323 −13.444 18.510 −18.602 1.00 12.06 ATOM 2494 N ALA A 324 −12.036 20.239 −18.268 1.00 9.86 ATOM 2495 CA ALA A 324 −11.969 20.017 −16.812 1.00 10.09 ATOM 2496 CB ALA A 324 −10.746 20.767 −16.234 1.00 9.76 ATOM 2497 C ALA A 324 −13.272 20.518 −16.178 1.00 10.17 ATOM 2498 O ALA A 324 −13.866 19.840 −15.325 1.00 10.29 ATOM 2499 N THR A 325 −13.758 21.662 −16.665 1.00 9.84 ATOM 2500 CA THR A 325 −15.000 22.267 −16.172 1.00 11.14 ATOM 2501 CB THR A 325 −15.102 23.765 −16.623 1.00 12.15 ATOM 2502 OG1 THR A 325 −14.002 24.498 −16.063 1.00 13.16 ATOM 2503 CG2 THR A 325 −16.402 24.411 −16.152 1.00 11.83 ATOM 2504 C THR A 325 −16.218 21.413 −16.570 1.00 11.50 ATOM 2505 O THR A 325 −17.086 21.126 −15.727 1.00 10.79 ATOM 2506 N PHE A 326 −16.234 20.925 −17.816 1.00 10.79 ATOM 2507 CA PHE A 326 −17.272 19.959 −18.240 1.00 12.12 ATOM 2508 CB PHE A 326 −17.194 19.652 −19.746 1.00 12.14 ATOM 2509 CG PHE A 326 −17.518 20.851 −20.640 1.00 13.71 ATOM 2510 CD1 PHE A 326 −16.777 21.077 −21.804 1.00 15.21 ATOM 2511 CE1 PHE A 326 −17.043 22.188 −22.635 1.00 14.99 ATOM 2512 CZ PHE A 326 −18.072 23.066 −22.311 1.00 16.33 ATOM 2513 CE2 PHE A 326 −18.851 22.832 −21.160 1.00 20.12 ATOM 2514 CD2 PHE A 326 −18.561 21.717 −20.331 1.00 16.63 ATOM 2515 C PHE A 326 −17.216 18.643 −17.464 1.00 11.56 ATOM 2516 O PHE A 326 −18.263 18.069 −17.180 1.00 11.74 ATOM 2517 N ALA A 327 −16.014 18.174 −17.103 1.00 11.35 ATOM 2518 CA ALA A 327 −15.889 16.909 −16.346 1.00 11.41 ATOM 2519 CB ALA A 327 −14.397 16.538 −16.158 1.00 11.95 ATOM 2520 C ALA A 327 −16.612 16.964 −14.965 1.00 12.04 ATOM 2521 O ALA A 327 −17.260 15.985 −14.561 1.00 12.69 ATOM 2522 N ALA A 328 −16.505 18.097 −14.266 1.00 12.13 ATOM 2523 CA ALA A 328 −17.207 18.293 −12.985 1.00 12.24 ATOM 2524 CB ALA A 328 −16.871 19.662 −12.369 1.00 12.48 ATOM 2525 C ALA A 328 −18.707 18.157 −13.177 1.00 12.90 ATOM 2526 O ALA A 328 −19.378 17.454 −12.411 1.00 13.60 ATOM 2527 N ALA A 329 −19.239 18.814 −14.202 1.00 12.55 ATOM 2528 CA ALA A 329 −20.669 18.682 −14.504 1.00 12.31 ATOM 2529 CB ALA A 329 −21.027 19.551 −15.692 1.00 12.87 ATOM 2530 C ALA A 329 −21.035 17.226 −14.788 1.00 12.71 ATOM 2531 O ALA A 329 −22.016 16.700 −14.266 1.00 12.32 ATOM 2532 N GLU A 330 −20.231 16.572 −15.629 1.00 12.54 ATOM 2533 CA GLU A 330 −20.500 15.187 −16.003 1.00 12.84 ATOM 2534 CB GLU A 330 −19.519 14.718 −17.100 1.00 12.55 ATOM 2535 CG GLU A 330 −19.850 13.303 −17.626 1.00 13.80 ATOM 2536 CD GLU A 330 −19.108 12.953 −18.917 1.00 13.54 ATOM 2537 OE1 GLU A 330 −18.650 13.889 −19.604 1.00 12.29 ATOM 2538 OE2 GLU A 330 −18.998 11.739 −19.209 1.00 14.52 ATOM 2539 C GLU A 330 −20.523 14.231 −14.809 1.00 12.94 ATOM 2540 O GLU A 330 −21.400 13.346 −14.726 1.00 12.90 ATOM 2541 N GLN A 331 −19.598 14.402 −13.866 1.00 12.03 ATOM 2542 CA GLN A 331 −19.589 13.502 −12.726 1.00 12.38 ATOM 2543 CB GLN A 331 −18.415 13.795 −11.797 1.00 12.24 ATOM 2544 CG GLN A 331 −18.357 12.759 −10.670 1.00 13.61 ATOM 2545 CD GLN A 331 −17.327 13.072 −9.608 1.00 15.82 ATOM 2546 OE1 GLN A 331 −16.263 13.617 −9.895 1.00 15.39 ATOM 2547 NE2 GLN A 331 −17.628 12.702 −8.372 1.00 13.76 ATOM 2548 C GLN A 331 −20.912 13.643 −11.969 1.00 12.33 ATOM 2549 O GLN A 331 −21.512 12.659 −11.556 1.00 12.45 ATOM 2550 N LEU A 332 −21.377 14.873 −11.844 1.00 12.57 ATOM 2551 CA LEU A 332 −22.628 15.138 −11.134 1.00 13.59 ATOM 2552 CB LEU A 332 −22.747 16.631 −10.868 1.00 13.17 ATOM 2553 CG LEU A 332 −21.681 17.142 −9.867 1.00 16.56 ATOM 2554 CD1 LEU A 332 −21.718 18.678 −9.801 1.00 18.10 ATOM 2555 CD2 LEU A 332 −21.851 16.476 −8.492 1.00 19.47 ATOM 2556 C LEU A 332 −23.861 14.600 −11.864 1.00 13.57 ATOM 2557 O LEU A 332 −24.770 14.053 −11.239 1.00 13.24 ATOM 2558 N TYR A 333 −23.909 14.766 −13.179 1.00 13.90 ATOM 2559 CA TYR A 333 −24.988 14.131 −13.972 1.00 14.37 ATOM 2560 CB TYR A 333 −24.901 14.523 −15.468 1.00 14.48 ATOM 2561 CG TYR A 333 −25.056 16.001 −15.721 1.00 13.91 ATOM 2562 CD1 TYR A 333 −26.086 16.738 −15.118 1.00 14.64 ATOM 2563 CE1 TYR A 333 −26.208 18.117 −15.350 1.00 15.65 ATOM 2564 CZ TYR A 333 −25.315 18.758 −16.196 1.00 16.47 ATOM 2565 OH TYR A 333 −25.431 20.101 −16.442 1.00 17.22 ATOM 2566 CE2 TYR A 333 −24.310 18.050 −16.836 1.00 16.59 ATOM 2567 CD2 TYR A 333 −24.192 16.669 −16.601 1.00 11.27 ATOM 2568 C TYR A 333 −25.022 12.613 −13.843 1.00 15.03 ATOM 2569 O TYR A 333 −26.108 12.012 −13.824 1.00 14.78 ATOM 2570 N ASP A 334 −23.836 11.998 −13.807 1.00 14.06 ATOM 2571 CA ASP A 334 −23.714 10.555 −13.602 1.00 14.83 ATOM 2572 CB ASP A 334 −22.239 10.114 −13.714 1.00 13.83 ATOM 2573 CG ASP A 334 −21.708 10.149 −15.136 1.00 15.84 ATOM 2574 OD1 ASP A 334 −22.495 10.373 −16.081 1.00 13.95 ATOM 2575 OD2 ASP A 334 −20.470 9.943 −15.313 1.00 15.50 ATOM 2576 C ASP A 334 −24.254 10.163 −12.224 1.00 15.21 ATOM 2577 O ASP A 334 −24.941 9.132 −12.080 1.00 15.93 ATOM 2578 N ALA A 335 −23.933 10.969 −11.213 1.00 15.09 ATOM 2579 CA ALA A 335 −24.454 10.735 −9.855 1.00 16.00 ATOM 2580 CB ALA A 335 −23.809 11.719 −8.864 1.00 15.13 ATOM 2581 C ALA A 335 −25.980 10.823 −9.803 1.00 16.10 ATOM 2582 O ALA A 335 −26.643 9.916 −9.245 1.00 16.77 ATOM 2583 N ILE A 336 −26.530 11.879 −10.398 1.00 16.35 ATOM 2584 CA ILE A 336 −27.987 12.087 −10.470 1.00 18.39 ATOM 2585 CB ILE A 336 −28.332 13.422 −11.162 1.00 18.85 ATOM 2586 CG1 ILE A 336 −27.891 14.596 −10.279 1.00 19.14 ATOM 2587 CD1 ILE A 336 −27.879 15.904 −10.986 1.00 22.50 ATOM 2588 CG2 ILE A 336 −29.839 13.539 −11.506 1.00 20.14 ATOM 2589 C ILE A 336 −28.681 10.902 −11.156 1.00 18.83 ATOM 2590 O ILE A 336 −29.707 10.404 −10.675 1.00 18.06 ATOM 2591 N TYR A 337 −28.102 10.443 −12.267 1.00 18.50 ATOM 2592 CA TYR A 337 −28.642 9.287 −12.970 1.00 18.99 ATOM 2593 CB TYR A 337 −27.753 8.908 −14.169 1.00 19.80 ATOM 2594 CG TYR A 337 −28.328 7.737 −14.954 1.00 20.76 ATOM 2595 CD1 TYR A 337 −27.988 6.429 −14.620 1.00 20.95 ATOM 2596 CE1 TYR A 337 −28.511 5.345 −15.322 1.00 22.94 ATOM 2597 CZ TYR A 337 −29.382 5.559 −16.356 1.00 22.19 ATOM 2598 OH TYR A 337 −29.877 4.447 −17.018 1.00 24.87 ATOM 2599 CE2 TYR A 337 −29.752 6.845 −16.721 1.00 22.31 ATOM 2600 CD2 TYR A 337 −29.220 7.942 −16.009 1.00 21.58 ATOM 2601 C TYR A 337 −28.839 8.083 −12.057 1.00 18.60 ATOM 2602 O TYR A 337 −29.918 7.476 −12.041 1.00 18.61 ATOM 2603 N VAL A 338 −27.802 7.737 −11.297 1.00 18.67 ATOM 2604 CA VAL A 338 −27.837 6.573 −10.406 1.00 18.90 ATOM 2605 CB VAL A 338 −26.424 6.195 −9.919 1.00 18.99 ATOM 2606 CG1 VAL A 338 −26.462 5.121 −8.820 1.00 19.71 ATOM 2607 CG2 VAL A 338 −25.600 5.698 −11.111 1.00 18.75 ATOM 2608 C VAL A 338 −28.810 6.788 −9.234 1.00 19.41 ATOM 2609 O VAL A 338 −29.565 5.871 −8.869 1.00 19.45 ATOM 2610 N TRP A 339 −28.797 7.987 −8.654 1.00 19.81 ATOM 2611 CA TRP A 339 −29.743 8.290 −7.559 1.00 20.46 ATOM 2612 CB TRP A 339 −29.514 9.705 −7.029 1.00 20.35 ATOM 2613 CG TRP A 339 −28.222 9.830 −6.329 1.00 18.64 ATOM 2614 CD1 TRP A 339 −27.540 8.846 −5.676 1.00 16.51 ATOM 2615 NE1 TRP A 339 −26.391 9.359 −5.126 1.00 17.81 ATOM 2616 CE2 TRP A 339 −26.312 10.693 −5.423 1.00 17.12 ATOM 2617 CD2 TRP A 339 −27.452 11.025 −6.183 1.00 17.64 ATOM 2618 CE3 TRP A 339 −27.624 12.343 −6.614 1.00 17.59 ATOM 2619 CZ3 TRP A 339 −26.637 13.283 −6.284 1.00 19.24 ATOM 2620 CH2 TRP A 339 −25.510 12.912 −5.520 1.00 18.24 ATOM 2621 CZ2 TRP A 339 −25.320 11.626 −5.103 1.00 18.45 ATOM 2622 C TRP A 339 −31.201 8.108 −7.997 1.00 21.83 ATOM 2623 O TRP A 339 −31.981 7.478 −7.274 1.00 22.01 ATOM 2624 N LYS A 340 −31.549 8.646 −9.168 1.00 22.85 ATOM 2625 CA LYS A 340 −32.904 8.541 −9.721 1.00 25.61 ATOM 2626 CB LYS A 340 −33.066 9.411 −10.967 1.00 25.52 ATOM 2627 CG LYS A 340 −33.174 10.905 −10.689 1.00 28.19 ATOM 2628 CD LYS A 340 −33.227 11.692 −11.991 1.00 34.04 ATOM 2629 CE LYS A 340 −33.966 13.011 −11.805 1.00 38.04 ATOM 2630 NZ LYS A 340 −33.868 13.876 −13.017 1.00 41.83 ATOM 2631 C LYS A 340 −33.276 7.108 −10.062 1.00 27.14 ATOM 2632 O LYS A 340 −34.413 6.686 −9.830 1.00 27.56 ATOM 2633 N LYS A 341 −32.317 6.358 −10.604 1.00 28.13 ATOM 2634 CA LYS A 341 −32.552 4.975 −11.018 1.00 30.18 ATOM 2635 CB LYS A 341 −31.358 4.428 −11.800 1.00 29.83 ATOM 2636 CG LYS A 341 −31.688 3.173 −12.624 1.00 33.04 ATOM 2637 CD LYS A 341 −30.472 2.624 −13.395 1.00 33.62 ATOM 2638 CE LYS A 341 −29.652 1.592 −12.588 1.00 38.22 ATOM 2639 NZ LYS A 341 −28.691 2.188 −11.573 1.00 40.88 ATOM 2640 C LYS A 341 −32.816 4.081 −9.817 1.00 30.19 ATOM 2641 O LYS A 341 −33.744 3.260 −9.837 1.00 30.15 ATOM 2642 N THR A 342 −31.999 4.246 −8.777 1.00 29.52 ATOM 2643 CA THR A 342 −32.074 3.400 −7.595 1.00 29.75 ATOM 2644 CB THR A 342 −30.687 3.221 −6.916 1.00 29.68 ATOM 2645 OG1 THR A 342 −30.254 4.458 −6.333 1.00 32.01 ATOM 2646 CG2 THR A 342 −29.628 2.735 −7.929 1.00 31.40 ATOM 2647 C THR A 342 −33.129 3.901 −6.596 1.00 29.01 ATOM 2648 O THR A 342 −33.572 3.148 −5.734 1.00 29.92 ATOM 2649 N GLY A 343 −33.534 5.158 −6.732 1.00 28.20 ATOM 2650 CA GLY A 343 −34.537 5.782 −5.862 1.00 28.30 ATOM 2651 C GLY A 343 −34.068 6.045 −4.438 1.00 27.91 ATOM 2652 O GLY A 343 −34.887 6.133 −3.519 1.00 28.16 ATOM 2653 N SER A 344 −32.760 6.226 −4.260 1.00 27.22 ATOM 2654 CA SER A 344 −32.142 6.306 −2.939 1.00 26.60 ATOM 2655 CB SER A 344 −31.870 4.880 −2.462 1.00 27.28 ATOM 2656 OG SER A 344 −31.354 4.855 −1.161 1.00 29.50 ATOM 2657 C SER A 344 −30.823 7.107 −2.979 1.00 26.02 ATOM 2658 O SER A 344 −30.068 6.992 −3.944 1.00 25.80 ATOM 2659 N ILE A 345 −30.557 7.900 −1.936 1.00 24.20 ATOM 2660 CA ILE A 345 −29.295 8.641 −1.770 1.00 23.04 ATOM 2661 CB ILE A 345 −29.477 10.171 −1.954 1.00 23.03 ATOM 2662 CG1 ILE A 345 −30.021 10.474 −3.340 1.00 22.44 ATOM 2663 CD1 ILE A 345 −30.399 11.918 −3.599 1.00 23.24 ATOM 2664 CG2 ILE A 345 −28.138 10.918 −1.670 1.00 22.00 ATOM 2665 C ILE A 345 −28.726 8.415 −0.378 1.00 23.13 ATOM 2666 O ILE A 345 −29.392 8.684 0.623 1.00 23.57 ATOM 2667 N THR A 346 −27.490 7.943 −0.307 1.00 22.23 ATOM 2668 CA THR A 346 −26.820 7.765 0.963 1.00 23.25 ATOM 2669 CB THR A 346 −26.246 6.338 1.101 1.00 23.78 ATOM 2670 OG1 THR A 346 −27.327 5.396 1.020 1.00 27.42 ATOM 2671 CG2 THR A 346 −25.507 6.129 2.443 1.00 24.74 ATOM 2672 C THR A 346 −25.753 8.849 1.138 1.00 23.03 ATOM 2673 O THR A 346 −24.916 9.067 0.260 1.00 23.47 ATOM 2674 N VAL A 347 −25.848 9.561 2.255 1.00 21.33 ATOM 2675 CA VAL A 347 −24.845 10.537 2.674 1.00 20.11 ATOM 2676 CB VAL A 347 −25.522 11.844 3.212 1.00 19.06 ATOM 2677 CG1 VAL A 347 −24.489 12.834 3.700 1.00 19.66 ATOM 2678 CG2 VAL A 347 −26.418 12.465 2.137 1.00 20.32 ATOM 2679 C VAL A 347 −24.066 9.865 3.785 1.00 20.14 ATOM 2680 O VAL A 347 −24.667 9.340 4.728 1.00 19.79 ATOM 2681 N THR A 348 −22.734 9.878 3.671 1.00 19.85 ATOM 2682 CA THR A 348 −21.851 9.274 4.660 1.00 19.92 ATOM 2683 CB THR A 348 −20.965 8.185 4.018 1.00 19.82 ATOM 2684 OG1 THR A 348 −19.921 8.815 3.277 1.00 20.35 ATOM 2685 CG2 THR A 348 −21.785 7.278 3.092 1.00 21.67 ATOM 2686 C THR A 348 −20.964 10.354 5.256 1.00 19.60 ATOM 2687 O THR A 348 −20.961 11.484 4.760 1.00 19.51 ATOM 2688 N ALA A 349 −20.191 10.006 6.292 1.00 19.18 ATOM 2689 CA ALA A 349 −19.243 10.932 6.885 1.00 20.02 ATOM 2690 CB ALA A 349 −18.494 10.275 8.044 1.00 20.61 ATOM 2691 C ALA A 349 −18.240 11.466 5.842 1.00 19.79 ATOM 2692 O ALA A 349 −17.756 12.601 5.947 1.00 20.15 ATOM 2693 N THR A 350 −17.906 10.619 4.873 1.00 18.87 ATOM 2694 CA THR A 350 −16.911 10.971 3.850 1.00 18.30 ATOM 2695 CB THR A 350 −16.435 9.717 3.093 1.00 18.67 ATOM 2696 OG1 THR A 350 −15.780 8.850 4.027 1.00 19.82 ATOM 2697 CG2 THR A 350 −15.426 10.097 1.974 1.00 17.73 ATOM 2698 C THR A 350 −17.463 12.003 2.871 1.00 17.30 ATOM 2699 O THR A 350 −16.747 12.930 2.487 1.00 17.99 ATOM 2700 N SER A 351 −18.716 11.847 2.467 1.00 16.16 ATOM 2701 CA SER A 351 −19.316 12.803 1.517 1.00 15.78 ATOM 2702 CB SER A 351 −20.214 12.076 0.512 1.00 15.85 ATOM 2703 OG SER A 351 −21.280 11.412 1.156 1.00 17.14 ATOM 2704 C SER A 351 −20.087 13.941 2.193 1.00 15.63 ATOM 2705 O SER A 351 −20.736 14.743 1.524 1.00 13.62 ATOM 2706 N LEU A 352 −20.048 14.006 3.527 1.00 15.09 ATOM 2707 CA LEU A 352 −20.901 14.985 4.212 1.00 16.29 ATOM 2708 CB LEU A 352 −20.759 14.851 5.736 1.00 16.64 ATOM 2709 CG LEU A 352 −21.713 15.734 6.570 1.00 17.22 ATOM 2710 CD1 LEU A 352 −23.138 15.281 6.418 1.00 19.06 ATOM 2711 CD2 LEU A 352 −21.263 15.636 8.032 1.00 20.02 ATOM 2712 C LEU A 352 −20.592 16.427 3.787 1.00 16.09 ATOM 2713 O LEU A 352 −21.499 17.219 3.601 1.00 16.35 ATOM 2714 N ALA A 353 −19.311 16.763 3.643 1.00 16.19 ATOM 2715 CA ALA A 353 −18.933 18.148 3.354 1.00 15.74 ATOM 2716 CB ALA A 353 −17.460 18.314 3.424 1.00 16.30 ATOM 2717 C ALA A 353 −19.459 18.544 1.972 1.00 16.11 ATOM 2718 O ALA A 353 −19.957 19.668 1.781 1.00 15.44 ATOM 2719 N PHE A 354 −19.367 17.607 1.021 1.00 16.10 ATOM 2720 CA PHE A 354 −19.885 17.849 −0.325 1.00 15.25 ATOM 2721 CB PHE A 354 −19.718 16.618 −1.220 1.00 16.59 ATOM 2722 CG PHE A 354 −20.497 16.707 −2.500 1.00 15.45 ATOM 2723 CD1 PHE A 354 −19.959 17.375 −3.603 1.00 16.95 ATOM 2724 CE1 PHE A 354 −20.664 17.489 −4.793 1.00 17.06 ATOM 2725 CZ PHE A 354 −21.956 16.953 −4.888 1.00 16.75 ATOM 2726 CE2 PHE A 354 −22.517 16.276 −3.791 1.00 16.91 ATOM 2727 CD2 PHE A 354 −21.778 16.160 −2.594 1.00 17.48 ATOM 2728 C PHE A 354 −21.374 18.188 −0.226 1.00 15.56 ATOM 2729 O PHE A 354 −21.815 19.183 −0.797 1.00 15.08 ATOM 2730 N PHE A 355 −22.140 17.347 0.474 1.00 14.54 ATOM 2731 CA PHE A 355 −23.588 17.544 0.517 1.00 15.29 ATOM 2732 CB PHE A 355 −24.295 16.319 1.078 1.00 15.61 ATOM 2733 CG PHE A 355 −24.386 15.176 0.112 1.00 15.51 ATOM 2734 CD1 PHE A 355 −25.306 15.205 −0.945 1.00 14.91 ATOM 2735 CE1 PHE A 355 −25.404 14.131 −1.832 1.00 16.52 ATOM 2736 CZ PHE A 355 −24.567 13.033 −1.676 1.00 16.12 ATOM 2737 CE2 PHE A 355 −23.648 12.994 −0.628 1.00 15.62 ATOM 2738 CD2 PHE A 355 −23.562 14.071 0.255 1.00 13.62 ATOM 2739 C PHE A 355 −23.988 18.789 1.303 1.00 15.19 ATOM 2740 O PHE A 355 −24.920 19.477 0.902 1.00 15.69 ATOM 2741 N GLN A 356 −23.283 19.084 2.398 1.00 15.78 ATOM 2742 CA GLN A 356 −23.679 20.216 3.257 1.00 16.16 ATOM 2743 CB GLN A 356 −22.987 20.165 4.627 1.00 16.84 ATOM 2744 CG GLN A 356 −23.564 19.115 5.579 1.00 17.13 ATOM 2745 CD GLN A 356 −22.907 19.170 6.973 1.00 18.06 ATOM 2746 OE1 GLN A 356 −21.808 19.707 7.138 1.00 20.29 ATOM 2747 NE2 GLN A 356 −23.569 18.589 7.965 1.00 20.95 ATOM 2748 C GLN A 356 −23.444 21.546 2.584 1.00 16.08 ATOM 2749 O GLN A 356 −24.142 22.507 2.868 1.00 15.59 ATOM 2750 N GLU A 357 −22.482 21.599 1.661 1.00 16.07 ATOM 2751 CA GLU A 357 −22.261 22.808 0.884 1.00 16.41 ATOM 2752 CB GLU A 357 −20.994 22.683 0.005 1.00 16.33 ATOM 2753 CG GLU A 357 −20.671 23.942 −0.770 1.00 15.64 ATOM 2754 CD GLU A 357 −19.326 23.894 −1.516 1.00 17.67 ATOM 2755 OE1 GLU A 357 −18.931 24.947 −2.066 1.00 19.03 ATOM 2756 OE2 GLU A 357 −18.685 22.822 −1.575 1.00 14.75 ATOM 2757 C GLU A 357 −23.492 23.105 0.019 1.00 15.84 ATOM 2758 O GLU A 357 −23.786 24.237 −0.224 1.00 18.07 ATOM 2759 N LEU A 358 −24.213 22.084 −0.420 1.00 14.72 ATOM 2760 CA LEU A 358 −25.364 22.251 −1.310 1.00 15.75 ATOM 2761 CB LEU A 358 −25.368 21.147 −2.369 1.00 16.49 ATOM 2762 CG LEU A 358 −24.057 21.100 −3.168 1.00 16.81 ATOM 2763 CD1 LEU A 358 −24.087 19.977 −4.182 1.00 19.73 ATOM 2764 CD2 LEU A 358 −23.775 22.465 −3.846 1.00 19.34 ATOM 2765 C LEU A 358 −26.708 22.251 −0.582 1.00 15.36 ATOM 2766 O LEU A 358 −27.656 22.911 −1.028 1.00 14.78 ATOM 2767 N VAL A 359 −26.786 21.511 0.520 1.00 15.34 ATOM 2768 CA VAL A 359 −28.001 21.404 1.321 1.00 15.00 ATOM 2769 CB VAL A 359 −28.691 20.006 1.154 1.00 15.90 ATOM 2770 CG1 VAL A 359 −29.999 19.917 1.962 1.00 15.16 ATOM 2771 CG2 VAL A 359 −28.967 19.685 −0.348 1.00 16.26 ATOM 2772 C VAL A 359 −27.531 21.624 2.775 1.00 14.72 ATOM 2773 O VAL A 359 −27.192 20.653 3.500 1.00 14.22 ATOM 2774 N PRO A 360 −27.467 22.893 3.193 1.00 14.98 ATOM 2775 CA PRO A 360 −26.937 23.179 4.539 1.00 15.45 ATOM 2776 CB PRO A 360 −27.150 24.700 4.700 1.00 15.45 ATOM 2777 CG PRO A 360 −27.188 25.219 3.274 1.00 16.15 ATOM 2778 CD PRO A 360 −27.854 24.127 2.471 1.00 14.54 ATOM 2779 C PRO A 360 −27.692 22.385 5.611 1.00 15.31 ATOM 2780 O PRO A 360 −28.918 22.262 5.555 1.00 15.07 ATOM 2781 N GLY A 361 −26.936 21.842 6.560 1.00 15.94 ATOM 2782 CA GLY A 361 −27.512 21.143 7.709 1.00 16.53 ATOM 2783 C GLY A 361 −27.870 19.680 7.488 1.00 17.03 ATOM 2784 O GLY A 361 −28.268 18.997 8.429 1.00 17.68 ATOM 2785 N VAL A 362 −27.762 19.176 6.261 1.00 16.13 ATOM 2786 CA VAL A 362 −28.163 17.769 6.037 1.00 16.72 ATOM 2787 CB VAL A 362 −28.217 17.416 4.525 1.00 16.47 ATOM 2788 CG1 VAL A 362 −26.808 17.311 3.947 1.00 16.75 ATOM 2789 CG2 VAL A 362 −29.054 16.142 4.280 1.00 17.21 ATOM 2790 C VAL A 362 −27.208 16.849 6.811 1.00 17.24 ATOM 2791 O VAL A 362 −26.044 17.187 7.006 1.00 17.07 ATOM 2792 N THR A 363 −27.695 15.703 7.274 1.00 18.15 ATOM 2793 CA THR A 363 −26.821 14.789 8.025 1.00 19.86 ATOM 2794 CB THR A 363 −27.388 14.459 9.405 1.00 20.59 ATOM 2795 OG1 THR A 363 −28.634 13.776 9.217 1.00 22.85 ATOM 2796 CG2 THR A 363 −27.610 15.742 10.182 1.00 22.71 ATOM 2797 C THR A 363 −26.660 13.476 7.310 1.00 19.18 ATOM 2798 O THR A 363 −27.398 13.184 6.371 1.00 18.87 ATOM 2799 N ALA A 364 −25.697 12.679 7.769 1.00 19.67 ATOM 2800 CA ALA A 364 −25.495 11.342 7.222 1.00 20.19 ATOM 2801 CB ALA A 364 −24.361 10.637 7.930 1.00 20.38 ATOM 2802 C ALA A 364 −26.783 10.541 7.343 1.00 21.17 ATOM 2803 O ALA A 364 −27.551 10.720 8.293 1.00 21.92 ATOM 2804 N GLY A 365 −27.041 9.687 6.360 1.00 21.67 ATOM 2805 CA GLY A 365 −28.207 8.823 6.371 1.00 22.35 ATOM 2806 C GLY A 365 −28.584 8.415 4.968 1.00 23.66 ATOM 2807 O GLY A 365 −27.924 8.804 3.991 1.00 23.66 ATOM 2808 N THR A 366 −29.639 7.615 4.862 1.00 23.70 ATOM 2809 CA THR A 366 −30.148 7.183 3.582 1.00 24.56 ATOM 2810 CB THR A 366 −30.188 5.644 3.491 1.00 25.67 ATOM 2811 OG1 THR A 366 −28.849 5.143 3.649 1.00 27.09 ATOM 2812 CG2 THR A 366 −30.715 5.216 2.159 1.00 25.47 ATOM 2813 C THR A 366 −31.520 7.769 3.344 1.00 25.15 ATOM 2814 O THR A 366 −32.427 7.612 4.177 1.00 25.01 ATOM 2815 N TYR A 367 −31.668 8.447 2.210 1.00 24.20 ATOM 2816 CA TYR A 367 −32.900 9.146 1.883 1.00 24.30 ATOM 2817 CB TYR A 367 −32.616 10.648 1.701 1.00 23.51 ATOM 2818 CG TYR A 367 −31.924 11.238 2.907 1.00 22.68 ATOM 2819 CD1 TYR A 367 −32.639 11.506 4.078 1.00 21.99 ATOM 2820 CE1 TYR A 367 −32.012 12.019 5.199 1.00 20.27 ATOM 2821 CZ TYR A 367 −30.650 12.263 5.176 1.00 22.67 ATOM 2822 OH TYR A 367 −30.036 12.789 6.287 1.00 21.24 ATOM 2823 CE2 TYR A 367 −29.897 11.994 4.023 1.00 20.71 ATOM 2824 CD2 TYR A 367 −30.541 11.479 2.904 1.00 20.37 ATOM 2825 C TYR A 367 −33.531 8.542 0.641 1.00 25.39 ATOM 2826 O TYR A 367 −32.900 8.456 −0.415 1.00 24.86 ATOM 2827 N SER A 368 −34.782 8.109 0.758 1.00 25.82 ATOM 2828 CA SER A 368 −35.416 7.454 −0.374 1.00 27.29 ATOM 2829 CB SER A 368 −36.339 6.332 0.107 1.00 27.90 ATOM 2830 OG SER A 368 −37.519 6.895 0.634 1.00 30.69 ATOM 2831 C SER A 368 −36.171 8.466 −1.218 1.00 27.68 ATOM 2832 O SER A 368 −36.361 9.612 −0.805 1.00 26.96 ATOM 2833 N SER A 369 −36.629 8.025 −2.388 1.00 28.98 ATOM 2834 CA SER A 369 −37.260 8.908 −3.367 1.00 30.52 ATOM 2835 CB SER A 369 −37.520 8.167 −4.681 1.00 30.90 ATOM 2836 OG SER A 369 −38.269 6.983 −4.452 1.00 32.57 ATOM 2837 C SER A 369 −38.536 9.583 −2.871 1.00 31.50 ATOM 2838 O SER A 369 −38.954 10.572 −3.442 1.00 32.33 ATOM 2839 N SER A 370 −39.150 9.067 −1.809 1.00 32.18 ATOM 2840 CA SER A 370 −40.365 9.712 −1.279 1.00 32.96 ATOM 2841 CB SER A 370 −41.313 8.692 −0.624 1.00 33.18 ATOM 2842 OG SER A 370 −40.610 7.847 0.273 1.00 34.18 ATOM 2843 C SER A 370 −40.049 10.864 −0.323 1.00 32.37 ATOM 2844 O SER A 370 −40.901 11.729 −0.078 1.00 33.26 ATOM 2845 N SER A 371 −38.825 10.893 0.197 1.00 31.13 ATOM 2846 CA SER A 371 −38.443 11.911 1.174 1.00 30.04 ATOM 2847 CB SER A 371 −37.180 11.487 1.912 1.00 29.83 ATOM 2848 OG SER A 371 −36.046 11.714 1.100 1.00 30.43 ATOM 2849 C SER A 371 −38.247 13.295 0.553 1.00 29.13 ATOM 2850 O SER A 371 −37.795 13.424 −0.589 1.00 28.84 ATOM 2851 N SER A 372 −38.571 14.340 1.312 1.00 27.84 ATOM 2852 CA SER A 372 −38.300 15.689 0.845 1.00 27.18 ATOM 2853 CB SER A 372 −38.896 16.737 1.789 1.00 27.36 ATOM 2854 OG SER A 372 −38.331 16.609 3.080 1.00 28.50 ATOM 2855 C SER A 372 −36.783 15.902 0.680 1.00 25.79 ATOM 2856 O SER A 372 −36.358 16.690 −0.173 1.00 26.29 ATOM 2857 N THR A 373 −35.979 15.193 1.479 1.00 24.06 ATOM 2858 CA THR A 373 −34.517 15.337 1.448 1.00 22.51 ATOM 2859 CB THR A 373 −33.833 14.501 2.545 1.00 22.26 ATOM 2860 OG1 THR A 373 −34.543 14.636 3.788 1.00 23.04 ATOM 2861 CG2 THR A 373 −32.370 14.926 2.734 1.00 21.06 ATOM 2862 C THR A 373 −33.984 14.906 0.076 1.00 21.61 ATOM 2863 O THR A 373 −33.134 15.578 −0.513 1.00 19.74 ATOM 2864 N PHE A 374 −34.493 13.777 −0.413 1.00 21.13 ATOM 2865 CA PHE A 374 −34.137 13.280 −1.749 1.00 22.10 ATOM 2866 CB PHE A 374 −34.950 12.023 −2.051 1.00 22.12 ATOM 2867 CG PHE A 374 −34.624 11.380 −3.366 1.00 22.90 ATOM 2868 CD1 PHE A 374 −33.677 10.368 −3.432 1.00 23.83 ATOM 2869 CE1 PHE A 374 −33.381 9.749 −4.649 1.00 22.56 ATOM 2870 CZ PHE A 374 −34.041 10.162 −5.802 1.00 23.24 ATOM 2871 CE2 PHE A 374 −34.985 11.161 −5.752 1.00 23.36 ATOM 2872 CD2 PHE A 374 −35.280 11.769 −4.523 1.00 23.73 ATOM 2873 C PHE A 374 −34.343 14.349 −2.818 1.00 22.24 ATOM 2874 O PHE A 374 −33.413 14.681 −3.548 1.00 22.63 ATOM 2875 N THR A 375 −35.549 14.923 −2.880 1.00 22.72 ATOM 2876 CA THR A 375 −35.890 15.963 −3.852 1.00 23.34 ATOM 2877 CB THR A 375 −37.364 16.398 −3.683 1.00 23.63 ATOM 2878 OG1 THR A 375 −38.193 15.244 −3.809 1.00 27.83 ATOM 2879 CG2 THR A 375 −37.768 17.413 −4.749 1.00 27.05 ATOM 2880 C THR A 375 −35.003 17.203 −3.746 1.00 22.66 ATOM 2881 O THR A 375 −34.603 17.766 −4.756 1.00 21.43 ATOM 2882 N ASN A 376 −34.744 17.632 −2.508 1.00 20.80 ATOM 2883 CA ASN A 376 −33.880 18.766 −2.207 1.00 21.33 ATOM 2884 CB ASN A 376 −33.856 18.975 −0.688 1.00 21.98 ATOM 2885 CG ASN A 376 −33.343 20.354 −0.278 1.00 27.01 ATOM 2886 OD1 ASN A 376 −32.582 21.011 −1.004 1.00 31.72 ATOM 2887 ND2 ASN A 376 −33.748 20.793 0.913 1.00 30.14 ATOM 2888 C ASN A 376 −32.465 18.527 −2.733 1.00 19.80 ATOM 2889 O ASN A 376 −31.898 19.389 −3.415 1.00 19.75 ATOM 2890 N ILE A 377 −31.915 17.354 −2.431 1.00 19.00 ATOM 2891 CA ILE A 377 −30.586 16.983 −2.916 1.00 18.66 ATOM 2892 CB ILE A 377 −30.081 15.651 −2.319 1.00 18.56 ATOM 2893 CG1 ILE A 377 −29.834 15.813 −0.800 1.00 18.42 ATOM 2894 CD1 ILE A 377 −29.634 14.481 −0.028 1.00 19.35 ATOM 2895 CG2 ILE A 377 −28.787 15.233 −3.025 1.00 18.07 ATOM 2896 C ILE A 377 −30.546 16.964 −4.451 1.00 18.87 ATOM 2897 O ILE A 377 −29.655 17.575 −5.058 1.00 18.47 ATOM 2898 N ILE A 378 −31.513 16.293 −5.068 1.00 18.45 ATOM 2899 CA ILE A 378 −31.556 16.216 −6.539 1.00 19.78 ATOM 2900 CB ILE A 378 −32.738 15.359 −7.085 1.00 20.45 ATOM 2901 CG1 ILE A 378 −32.593 13.891 −6.650 1.00 22.32 ATOM 2902 CD1 ILE A 378 −31.414 13.145 −7.270 1.00 24.68 ATOM 2903 CG2 ILE A 378 −32.829 15.472 −8.646 1.00 21.27 ATOM 2904 C ILE A 378 −31.561 17.588 −7.177 1.00 19.82 ATOM 2905 O ILE A 378 −30.760 17.849 −8.101 1.00 19.62 ATOM 2906 N ASN A 379 −32.441 18.470 −6.689 1.00 18.68 ATOM 2907 CA ASN A 379 −32.531 19.820 −7.224 1.00 19.13 ATOM 2908 CB ASN A 379 −33.738 20.578 −6.658 1.00 20.08 ATOM 2909 CG ASN A 379 −35.066 19.956 −7.087 1.00 25.11 ATOM 2910 OD1 ASN A 379 −35.121 19.173 −8.044 1.00 29.37 ATOM 2911 ND2 ASN A 379 −36.144 20.289 −6.369 1.00 29.08 ATOM 2912 C ASN A 379 −31.241 20.604 −7.040 1.00 17.96 ATOM 2913 O ASN A 379 −30.774 21.273 −7.981 1.00 17.85 ATOM 2914 N ALA A 380 −30.662 20.497 −5.841 1.00 15.93 ATOM 2915 CA ALA A 380 −29.458 21.241 −5.509 1.00 16.08 ATOM 2916 CB ALA A 380 −29.120 21.061 −4.033 1.00 16.14 ATOM 2917 C ALA A 380 −28.299 20.783 −6.389 1.00 15.64 ATOM 2918 O ALA A 380 −27.566 21.607 −6.938 1.00 16.56 ATOM 2919 N VAL A 381 −28.153 19.471 −6.519 1.00 15.22 ATOM 2920 CA VAL A 381 −27.039 18.912 −7.302 1.00 15.77 ATOM 2921 CB VAL A 381 −26.823 17.403 −6.999 1.00 15.61 ATOM 2922 CG1 VAL A 381 −25.747 16.777 −7.940 1.00 14.83 ATOM 2923 CG2 VAL A 381 −26.386 17.234 −5.551 1.00 14.84 ATOM 2924 C VAL A 381 −27.243 19.211 −8.794 1.00 16.08 ATOM 2925 O VAL A 381 −26.281 19.508 −9.505 1.00 16.62 ATOM 2926 N SER A 382 −28.482 19.112 −9.278 1.00 16.66 ATOM 2927 CA SER A 382 −28.772 19.453 −10.690 1.00 18.67 ATOM 2928 CB SER A 382 −30.246 19.212 −11.043 1.00 18.26 ATOM 2929 OG SER A 382 −30.538 17.855 −10.893 1.00 24.56 ATOM 2930 C SER A 382 −28.434 20.894 −11.005 1.00 18.10 ATOM 2931 O SER A 382 −27.815 21.183 −12.027 1.00 18.05 ATOM 2932 N THR A 383 −28.853 21.810 −10.132 1.00 17.66 ATOM 2933 CA THR A 383 −28.521 23.216 −10.298 1.00 17.72 ATOM 2934 CB THR A 383 −29.199 24.063 −9.180 1.00 18.48 ATOM 2935 OG1 THR A 383 −30.606 23.985 −9.373 1.00 19.72 ATOM 2936 CG2 THR A 383 −28.771 25.550 −9.227 1.00 19.59 ATOM 2937 C THR A 383 −27.017 23.470 −10.314 1.00 17.09 ATOM 2938 O THR A 383 −26.524 24.286 −11.109 1.00 17.00 ATOM 2939 N TYR A 384 −26.299 22.774 −9.435 1.00 15.62 ATOM 2940 CA TYR A 384 −24.858 22.925 −9.312 1.00 15.37 ATOM 2941 CB TYR A 384 −24.397 22.164 −8.068 1.00 15.00 ATOM 2942 CG TYR A 384 −22.958 22.345 −7.630 1.00 15.08 ATOM 2943 CD1 TYR A 384 −22.361 23.601 −7.578 1.00 15.83 ATOM 2944 CE1 TYR A 384 −21.049 23.752 −7.131 1.00 16.33 ATOM 2945 CZ TYR A 384 −20.321 22.623 −6.737 1.00 16.13 ATOM 2946 OH TYR A 384 −19.018 22.738 −6.302 1.00 16.22 ATOM 2947 CE2 TYR A 384 −20.890 21.386 −6.778 1.00 13.72 ATOM 2948 CD2 TYR A 384 −22.203 21.242 −7.232 1.00 14.72 ATOM 2949 C TYR A 384 −24.186 22.396 −10.590 1.00 15.13 ATOM 2950 O TYR A 384 −23.319 23.065 −11.173 1.00 14.43 ATOM 2951 N ALA A 385 −24.605 21.213 −11.033 1.00 15.02 ATOM 2952 CA ALA A 385 −24.045 20.639 −12.263 1.00 15.60 ATOM 2953 CB ALA A 385 −24.634 19.295 −12.503 1.00 15.85 ATOM 2954 C ALA A 385 −24.249 21.564 −13.477 1.00 16.15 ATOM 2955 O ALA A 385 −23.292 21.857 −14.211 1.00 15.49 ATOM 2956 N ASP A 386 −25.483 22.055 −13.660 1.00 15.57 ATOM 2957 CA ASP A 386 −25.782 23.058 −14.694 1.00 16.09 ATOM 2958 CB ASP A 386 −27.279 23.433 −14.687 1.00 15.88 ATOM 2959 CG ASP A 386 −28.158 22.379 −15.349 1.00 18.85 ATOM 2960 OD1 ASP A 386 −27.672 21.307 −15.766 1.00 18.94 ATOM 2961 OD2 ASP A 386 −29.365 22.624 −15.461 1.00 23.88 ATOM 2962 C ASP A 386 −24.938 24.322 −14.526 1.00 15.81 ATOM 2963 O ASP A 386 −24.594 24.998 −15.501 1.00 16.29 ATOM 2964 N GLY A 387 −24.591 24.640 −13.290 1.00 15.76 ATOM 2965 CA GLY A 387 −23.735 25.787 −13.038 1.00 14.35 ATOM 2966 C GLY A 387 −22.354 25.654 −13.663 1.00 14.35 ATOM 2967 O GLY A 387 −21.791 26.644 −14.129 1.00 13.79 ATOM 2968 N PHE A 388 −21.771 24.453 −13.624 1.00 14.30 ATOM 2969 CA PHE A 388 −20.479 24.217 −14.312 1.00 14.69 ATOM 2970 CB PHE A 388 −19.912 22.824 −13.987 1.00 14.42 ATOM 2971 CG PHE A 388 −19.359 22.730 −12.584 1.00 13.79 ATOM 2972 CD1 PHE A 388 −18.139 23.335 −12.269 1.00 14.50 ATOM 2973 CE1 PHE A 388 −17.621 23.261 −10.947 1.00 16.38 ATOM 2974 CZ PHE A 388 −18.377 22.627 −9.951 1.00 14.77 ATOM 2975 CE2 PHE A 388 −19.604 22.045 −10.265 1.00 16.35 ATOM 2976 CD2 PHE A 388 −20.088 22.100 −11.578 1.00 14.00 ATOM 2977 C PHE A 388 −20.601 24.428 −15.821 1.00 15.31 ATOM 2978 O PHE A 388 −19.740 25.078 −16.440 1.00 15.55 ATOM 2979 N LEU A 389 −21.669 23.913 −16.415 1.00 16.52 ATOM 2980 CA LEU A 389 −21.889 24.159 −17.856 1.00 17.84 ATOM 2981 CB LEU A 389 −23.137 23.431 −18.382 1.00 17.83 ATOM 2982 CG LEU A 389 −23.172 21.911 −18.427 1.00 22.75 ATOM 2983 CD1 LEU A 389 −24.247 21.418 −19.401 1.00 22.55 ATOM 2984 CD2 LEU A 389 −21.805 21.333 −18.806 1.00 24.63 ATOM 2985 C LEU A 389 −22.013 25.634 −18.136 1.00 18.32 ATOM 2986 O LEU A 389 −21.409 26.138 −19.091 1.00 19.50 ATOM 2987 N SER A 390 −22.775 26.341 −17.295 1.00 18.55 ATOM 2988 CA SER A 390 −23.021 27.767 −17.469 1.00 19.33 ATOM 2989 CB SER A 390 −24.090 28.246 −16.491 1.00 19.89 ATOM 2990 OG SER A 390 −25.325 27.693 −16.891 1.00 24.07 ATOM 2991 C SER A 390 −21.763 28.603 −17.323 1.00 19.51 ATOM 2992 O SER A 390 −21.575 29.585 −18.055 1.00 19.69 ATOM 2993 N GLU A 391 −20.893 28.200 −16.399 1.00 18.87 ATOM 2994 CA GLU A 391 −19.633 28.879 −16.220 1.00 19.59 ATOM 2995 CB GLU A 391 −18.901 28.393 −14.952 1.00 20.02 ATOM 2996 CG GLU A 391 −19.528 28.924 −13.668 1.00 23.54 ATOM 2997 CD GLU A 391 −19.590 30.448 −13.634 1.00 26.61 ATOM 2998 OE1 GLU A 391 −18.609 31.102 −14.023 1.00 28.42 ATOM 2999 OE2 GLU A 391 −20.637 30.994 −13.227 1.00 29.52 ATOM 3000 C GLU A 391 −18.738 28.729 −17.457 1.00 19.12 ATOM 3001 O GLU A 391 −18.123 29.709 −17.906 1.00 19.40 ATOM 3002 N ALA A 392 −18.654 27.516 −17.991 1.00 18.81 ATOM 3003 CA ALA A 392 −17.861 27.304 −19.201 1.00 19.72 ATOM 3004 CB ALA A 392 −17.758 25.815 −19.526 1.00 19.45 ATOM 3005 C ALA A 392 −18.478 28.098 −20.363 1.00 19.59 ATOM 3006 O ALA A 392 −17.764 28.724 −21.157 1.00 18.65 ATOM 3007 N ALA A 393 −19.808 28.117 −20.425 1.00 20.40 ATOM 3008 CA ALA A 393 −20.526 28.820 −21.507 1.00 21.27 ATOM 3009 CB ALA A 393 −22.035 28.524 −21.421 1.00 21.83 ATOM 3010 C ALA A 393 −20.266 30.334 −21.574 1.00 21.79 ATOM 3011 O ALA A 393 −20.283 30.920 −22.664 1.00 21.96 ATOM 3012 N LYS A 394 −19.976 30.971 −20.435 1.00 21.37 ATOM 3013 CA LYS A 394 −19.626 32.383 −20.447 1.00 22.02 ATOM 3014 CB LYS A 394 −19.289 32.916 −19.043 1.00 23.11 ATOM 3015 CG LYS A 394 −20.411 32.980 −18.044 1.00 25.98 ATOM 3016 CD LYS A 394 −19.782 33.341 −16.700 1.00 28.89 ATOM 3017 CE LYS A 394 −20.793 33.314 −15.576 1.00 34.05 ATOM 3018 NZ LYS A 394 −20.097 33.674 −14.290 1.00 33.96 ATOM 3019 C LYS A 394 −18.403 32.626 −21.310 1.00 21.55 ATOM 3020 O LYS A 394 −18.188 33.742 −21.771 1.00 22.41 ATOM 3021 N TYR A 395 −17.570 31.604 −21.488 1.00 19.98 ATOM 3022 CA TYR A 395 −16.287 31.824 −22.132 1.00 19.46 ATOM 3023 CB TYR A 395 −15.137 31.464 −21.185 1.00 20.82 ATOM 3024 CG TYR A 395 −15.291 32.165 −19.872 1.00 22.04 ATOM 3025 CD1 TYR A 395 −15.644 31.450 −18.716 1.00 23.21 ATOM 3026 CE1 TYR A 395 −15.806 32.097 −17.508 1.00 23.70 ATOM 3027 CZ TYR A 395 −15.661 33.473 −17.460 1.00 23.93 ATOM 3028 OH TYR A 395 −15.828 34.143 −16.272 1.00 26.14 ATOM 3029 CE2 TYR A 395 −15.327 34.202 −18.593 1.00 24.38 ATOM 3030 CD2 TYR A 395 −15.157 33.548 −19.791 1.00 22.37 ATOM 3031 C TYR A 395 −16.157 31.119 −23.451 1.00 19.22 ATOM 3032 O TYR A 395 −15.045 30.940 −23.941 1.00 18.70 ATOM 3033 N VAL A 396 −17.299 30.718 −24.018 1.00 18.16 ATOM 3034 CA VAL A 396 −17.331 30.135 −25.352 1.00 19.03 ATOM 3035 CB VAL A 396 −18.396 29.025 −25.458 1.00 18.18 ATOM 3036 CG1 VAL A 396 −18.469 28.465 −26.898 1.00 18.63 ATOM 3037 CG2 VAL A 396 −18.094 27.915 −24.452 1.00 18.97 ATOM 3038 C VAL A 396 −17.654 31.288 −26.308 1.00 19.65 ATOM 3039 O VAL A 396 −18.644 31.986 −26.098 1.00 19.66 ATOM 3040 N PRO A 397 −16.810 31.507 −27.328 1.00 20.41 ATOM 3041 CA PRO A 397 −17.016 32.626 −28.256 1.00 20.82 ATOM 3042 CB PRO A 397 −15.794 32.561 −29.175 1.00 21.47 ATOM 3043 CG PRO A 397 −14.819 31.725 −28.475 1.00 21.69 ATOM 3044 CD PRO A 397 −15.598 30.741 −27.661 1.00 19.70 ATOM 3045 C PRO A 397 −18.280 32.434 −29.073 1.00 21.11 ATOM 3046 O PRO A 397 −18.844 31.339 −29.088 1.00 19.88 ATOM 3047 N ALA A 398 −18.713 33.492 −29.765 1.00 21.26 ATOM 3048 CA ALA A 398 −19.951 33.424 −30.559 1.00 21.44 ATOM 3049 CB ALA A 398 −20.227 34.766 −31.230 1.00 22.38 ATOM 3050 C ALA A 398 −19.971 32.297 −31.587 1.00 21.30 ATOM 3051 O ALA A 398 −21.038 31.769 −31.901 1.00 22.15 ATOM 3052 N ASP A 399 −18.804 31.896 −32.102 1.00 20.30 ATOM 3053 CA ASP A 399 −18.780 30.858 −33.133 1.00 19.40 ATOM 3054 CB ASP A 399 −17.587 31.032 −34.071 1.00 19.42 ATOM 3055 CG ASP A 399 −16.233 30.835 −33.381 1.00 21.84 ATOM 3056 OD1 ASP A 399 −16.146 30.569 −32.159 1.00 20.91 ATOM 3057 OD2 ASP A 399 −15.229 30.950 −34.104 1.00 24.62 ATOM 3058 C ASP A 399 −18.834 29.435 −32.579 1.00 18.14 ATOM 3059 O ASP A 399 −18.802 28.465 −33.350 1.00 16.78 ATOM 3060 N GLY A 400 −18.891 29.322 −31.245 1.00 16.82 ATOM 3061 CA GLY A 400 −18.996 28.015 −30.607 1.00 15.41 ATOM 3062 C GLY A 400 −17.693 27.229 −30.556 1.00 15.07 ATOM 3063 O GLY A 400 −17.704 26.041 −30.203 1.00 15.23 ATOM 3064 N SER A 401 −16.572 27.861 −30.882 1.00 14.21 ATOM 3065 CA SER A 401 −15.312 27.119 −30.893 1.00 14.76 ATOM 3066 CB SER A 401 −14.241 27.840 −31.718 1.00 14.71 ATOM 3067 OG SER A 401 −14.059 29.160 −31.257 1.00 16.86 ATOM 3068 C SER A 401 −14.815 26.866 −29.448 1.00 14.38 ATOM 3069 O SER A 401 −14.992 27.717 −28.562 1.00 14.58 ATOM 3070 N LEU A 402 −14.169 25.720 −29.249 1.00 13.54 ATOM 3071 CA LEU A 402 −13.603 25.364 −27.968 1.00 13.21 ATOM 3072 CB LEU A 402 −14.271 24.080 −27.450 1.00 13.42 ATOM 3073 CG LEU A 402 −15.776 24.192 −27.162 1.00 14.06 ATOM 3074 CD1 LEU A 402 −16.289 22.834 −26.668 1.00 13.87 ATOM 3075 CD2 LEU A 402 −15.997 25.264 −26.109 1.00 17.00 ATOM 3076 C LEU A 402 −12.111 25.143 −28.109 1.00 12.99 ATOM 3077 O LEU A 402 −11.695 24.166 −28.707 1.00 13.19 ATOM 3078 N ALA A 403 −11.320 26.070 −27.578 1.00 13.02 ATOM 3079 CA ALA A 403 −9.884 25.870 −27.454 1.00 12.06 ATOM 3080 CB ALA A 403 −9.194 27.226 −27.220 1.00 11.77 ATOM 3081 C ALA A 403 −9.591 24.907 −26.300 1.00 12.81 ATOM 3082 O ALA A 403 −10.508 24.315 −25.714 1.00 12.36 ATOM 3083 N GLU A 404 −8.308 24.772 −25.959 1.00 11.39 ATOM 3084 CA GLU A 404 −7.918 23.922 −24.855 1.00 11.47 ATOM 3085 CB GLU A 404 −6.412 23.689 −24.931 1.00 11.02 ATOM 3086 CG GLU A 404 −5.865 22.723 −23.873 1.00 11.30 ATOM 3087 CD GLU A 404 −4.363 22.669 −23.954 1.00 12.25 ATOM 3088 OE1 GLU A 404 −3.729 23.692 −23.622 1.00 12.06 ATOM 3089 OE2 GLU A 404 −3.818 21.624 −24.390 1.00 12.60 ATOM 3090 C GLU A 404 −8.246 24.635 −23.538 1.00 11.77 ATOM 3091 O GLU A 404 −8.755 24.006 −22.590 1.00 11.08 ATOM 3092 N GLN A 405 −7.890 25.924 −23.453 1.00 12.07 ATOM 3093 CA GLN A 405 −7.952 26.655 −22.196 1.00 13.33 ATOM 3094 CB GLN A 405 −6.539 26.986 −21.678 1.00 13.24 ATOM 3095 CG GLN A 405 −5.625 25.821 −21.553 1.00 15.96 ATOM 3096 CD GLN A 405 −4.229 26.213 −21.051 1.00 14.97 ATOM 3097 OE1 GLN A 405 −4.068 27.130 −20.236 1.00 15.09 ATOM 3098 NE2 GLN A 405 −3.236 25.475 −21.496 1.00 15.87 ATOM 3099 C GLN A 405 −8.687 27.985 −22.356 1.00 13.51 ATOM 3100 O GLN A 405 −8.870 28.475 −23.489 1.00 13.74 ATOM 3101 N PHE A 406 −9.041 28.587 −21.226 1.00 12.60 ATOM 3102 CA PHE A 406 −9.516 29.990 −21.207 1.00 13.82 ATOM 3103 CB PHE A 406 −11.058 30.104 −21.232 1.00 13.56 ATOM 3104 CG PHE A 406 −11.800 29.385 −20.123 1.00 15.20 ATOM 3105 CD1 PHE A 406 −12.155 28.026 −20.242 1.00 16.33 ATOM 3106 CE1 PHE A 406 −12.879 27.370 −19.239 1.00 16.80 ATOM 3107 CZ PHE A 406 −13.340 28.094 −18.114 1.00 16.74 ATOM 3108 CE2 PHE A 406 −13.020 29.453 −17.993 1.00 15.37 ATOM 3109 CD2 PHE A 406 −12.260 30.101 −19.000 1.00 17.56 ATOM 3110 C PHE A 406 −8.836 30.737 −20.078 1.00 13.80 ATOM 3111 O PHE A 406 −8.587 30.151 −19.018 1.00 14.02 ATOM 3112 N ASP A 407 −8.481 31.997 −20.321 1.00 14.98 ATOM 3113 CA ASP A 407 −7.547 32.726 −19.438 1.00 15.04 ATOM 3114 CB ASP A 407 −7.237 34.115 −20.032 1.00 15.99 ATOM 3115 CG ASP A 407 −6.159 34.829 −19.293 1.00 18.17 ATOM 3116 OD1 ASP A 407 −6.474 35.508 −18.293 1.00 20.41 ATOM 3117 OD2 ASP A 407 −4.993 34.683 −19.685 1.00 20.75 ATOM 3118 C ASP A 407 −8.100 32.829 −18.005 1.00 14.54 ATOM 3119 O ASP A 407 −9.257 33.185 −17.800 1.00 15.12 ATOM 3120 N ARG A 408 −7.248 32.548 −17.018 1.00 14.63 ATOM 3121 CA ARG A 408 −7.644 32.530 −15.609 1.00 15.33 ATOM 3122 CB ARG A 408 −6.453 32.095 −14.753 1.00 15.32 ATOM 3123 CG ARG A 408 −5.236 33.062 −14.828 1.00 14.48 ATOM 3124 CD ARG A 408 −4.009 32.479 −14.122 1.00 16.22 ATOM 3125 NE ARG A 408 −4.237 32.248 −12.695 1.00 15.55 ATOM 3126 CZ ARG A 408 −3.613 31.323 −11.961 1.00 18.66 ATOM 3127 NH1 ARG A 408 −3.878 31.231 −10.658 1.00 17.51 ATOM 3128 NH2 ARG A 408 −2.717 30.499 −12.511 1.00 17.12 ATOM 3129 C ARG A 408 −8.167 33.886 −15.108 1.00 16.66 ATOM 3130 O ARG A 408 −8.898 33.943 −14.110 1.00 16.82 ATOM 3131 N ASN A 409 −7.781 34.964 −15.790 1.00 18.00 ATOM 3132 CA ASN A 409 −8.252 36.316 −15.421 1.00 20.06 ATOM 3133 CB ASN A 409 −7.069 37.275 −15.355 1.00 20.32 ATOM 3134 CG ASN A 409 −6.119 36.937 −14.224 1.00 21.65 ATOM 3135 OD1 ASN A 409 −6.549 36.678 −13.111 1.00 24.42 ATOM 3136 ND2 ASN A 409 −4.830 36.914 −14.516 1.00 23.96 ATOM 3137 C ASN A 409 −9.320 36.903 −16.336 1.00 21.43 ATOM 3138 O ASN A 409 −10.272 37.524 −15.857 1.00 22.03 ATOM 3139 N SER A 410 −9.152 36.724 −17.646 1.00 22.25 ATOM 3140 CA SER A 410 −10.007 37.410 −18.624 1.00 22.76 ATOM 3141 CB SER A 410 −9.146 38.159 −19.636 1.00 23.45 ATOM 3142 OG SER A 410 −8.470 37.260 −20.495 1.00 23.38 ATOM 3143 C SER A 410 −10.971 36.472 −19.343 1.00 22.82 ATOM 3144 O SER A 410 −11.898 36.925 −20.010 1.00 23.59 ATOM 3145 N GLY A 411 −10.758 35.161 −19.238 1.00 21.64 ATOM 3146 CA GLY A 411 −11.668 34.221 −19.877 1.00 20.39 ATOM 3147 C GLY A 411 −11.476 34.087 −21.379 1.00 19.99 ATOM 3148 O GLY A 411 −12.223 33.368 −22.029 1.00 20.85 ATOM 3149 N THR A 412 −10.478 34.750 −21.941 1.00 19.04 ATOM 3150 CA THR A 412 −10.268 34.658 −23.383 1.00 20.25 ATOM 3151 CB THR A 412 −9.447 35.853 −23.922 1.00 21.81 ATOM 3152 OG1 THR A 412 −8.187 35.900 −23.257 1.00 26.24 ATOM 3153 CG2 THR A 412 −10.160 37.163 −23.631 1.00 23.82 ATOM 3154 C THR A 412 −9.615 33.294 −23.732 1.00 19.17 ATOM 3155 O THR A 412 −8.786 32.796 −22.970 1.00 17.70 ATOM 3156 N PRO A 413 −9.996 32.688 −24.874 1.00 18.84 ATOM 3157 CA PRO A 413 −9.466 31.348 −25.234 1.00 18.32 ATOM 3158 CB PRO A 413 −10.220 31.002 −26.525 1.00 18.75 ATOM 3159 CG PRO A 413 −11.513 31.928 −26.451 1.00 19.42 ATOM 3160 CD PRO A 413 −10.943 33.195 −25.891 1.00 19.40 ATOM 3161 C PRO A 413 −7.959 31.399 −25.464 1.00 18.87 ATOM 3162 O PRO A 413 −7.436 32.406 −25.955 1.00 18.20 ATOM 3163 N LEU A 414 −7.253 30.353 −25.051 1.00 18.44 ATOM 3164 CA LEU A 414 −5.822 30.275 −25.305 1.00 18.90 ATOM 3165 CB LEU A 414 −4.992 30.974 −24.208 1.00 21.66 ATOM 3166 CG LEU A 414 −5.019 30.574 −22.754 1.00 24.35 ATOM 3167 CD1 LEU A 414 −4.134 31.484 −21.892 1.00 27.42 ATOM 3168 CD2 LEU A 414 −6.406 30.669 −22.224 1.00 30.77 ATOM 3169 C LEU A 414 −5.362 28.854 −25.518 1.00 17.24 ATOM 3170 O LEU A 414 −6.138 27.913 −25.406 1.00 15.97 ATOM 3171 N SER A 415 −4.091 28.733 −25.865 1.00 15.34 ATOM 3172 CA SER A 415 −3.473 27.481 −26.257 1.00 15.28 ATOM 3173 CB SER A 415 −3.434 26.468 −25.101 1.00 14.94 ATOM 3174 OG SER A 415 −2.632 25.355 −25.445 1.00 14.00 ATOM 3175 C SER A 415 −4.141 26.932 −27.528 1.00 15.13 ATOM 3176 O SER A 415 −4.665 27.718 −28.334 1.00 14.92 ATOM 3177 N ALA A 416 −4.097 25.618 −27.714 1.00 14.27 ATOM 3178 CA ALA A 416 −4.540 24.977 −28.976 1.00 14.25 ATOM 3179 CB ALA A 416 −4.380 23.486 −28.889 1.00 13.68 ATOM 3180 C ALA A 416 −5.981 25.314 −29.315 1.00 14.33 ATOM 3181 O ALA A 416 −6.854 25.216 −28.459 1.00 14.09 ATOM 3182 N LEU A 417 −6.223 25.680 −30.567 1.00 13.34 ATOM 3183 CA LEU A 417 −7.584 25.985 −31.006 1.00 14.22 ATOM 3184 CB LEU A 417 −7.536 26.931 −32.194 1.00 16.32 ATOM 3185 CG LEU A 417 −6.841 28.283 −31.942 1.00 18.75 ATOM 3186 CD1 LEU A 417 −7.005 29.127 −33.163 1.00 23.81 ATOM 3187 CD2 LEU A 417 −7.419 28.991 −30.712 1.00 21.76 ATOM 3188 C LEU A 417 −8.279 24.687 −31.413 1.00 13.18 ATOM 3189 O LEU A 417 −7.610 23.712 −31.775 1.00 13.19 ATOM 3190 N HIS A 418 −9.609 24.658 −31.311 1.00 12.26 ATOM 3191 CA HIS A 418 −10.399 23.496 −31.764 1.00 11.77 ATOM 3192 CB HIS A 418 −10.487 23.454 −33.303 1.00 13.41 ATOM 3193 CG HIS A 418 −11.294 24.566 −33.898 1.00 14.68 ATOM 3194 ND1 HIS A 418 −12.646 24.717 −33.660 1.00 16.00 ATOM 3195 CE1 HIS A 418 −13.095 25.762 −34.341 1.00 17.83 ATOM 3196 NE2 HIS A 418 −12.085 26.290 −35.015 1.00 17.38 ATOM 3197 CD2 HIS A 418 −10.948 25.557 −34.763 1.00 17.65 ATOM 3198 C HIS A 418 −9.826 22.187 −31.206 1.00 12.24 ATOM 3199 O HIS A 418 −9.540 21.250 −31.947 1.00 12.10 ATOM 3200 N LEU A 419 −9.656 22.116 −29.880 1.00 10.99 ATOM 3201 CA LEU A 419 −9.152 20.881 −29.301 1.00 10.46 ATOM 3202 CB LEU A 419 −8.742 21.069 −27.826 1.00 10.91 ATOM 3203 CG LEU A 419 −7.983 19.883 −27.220 1.00 10.16 ATOM 3204 CD1 LEU A 419 −6.524 19.944 −27.669 1.00 11.45 ATOM 3205 CD2 LEU A 419 −8.080 19.960 −25.657 1.00 10.73 ATOM 3206 C LEU A 419 −10.215 19.812 −29.398 1.00 10.49 ATOM 3207 O LEU A 419 −11.312 19.973 −28.863 1.00 10.67 ATOM 3208 N THR A 420 −9.860 18.686 −30.021 1.00 10.22 ATOM 3209 CA THR A 420 −10.833 17.629 −30.296 1.00 10.90 ATOM 3210 CB THR A 420 −10.201 16.460 −31.096 1.00 11.55 ATOM 3211 OG1 THR A 420 −9.357 16.999 −32.115 1.00 12.00 ATOM 3212 CG2 THR A 420 −11.310 15.625 −31.786 1.00 12.52 ATOM 3213 C THR A 420 −11.426 17.135 −28.995 1.00 11.43 ATOM 3214 O THR A 420 −12.648 16.903 −28.891 1.00 11.83 ATOM 3215 N TRP A 421 −10.569 16.987 −27.980 1.00 9.79 ATOM 3216 CA TRP A 421 −11.052 16.511 −26.688 1.00 11.67 ATOM 3217 CB TRP A 421 −9.839 16.184 −25.803 1.00 12.06 ATOM 3218 CG TRP A 421 −10.075 15.476 −24.508 1.00 11.94 ATOM 3219 CD1 TRP A 421 −11.274 15.202 −23.881 1.00 14.46 ATOM 3220 NE1 TRP A 421 −11.044 14.590 −22.663 1.00 14.38 ATOM 3221 CE2 TRP A 421 −9.691 14.497 −22.468 1.00 13.52 ATOM 3222 CD2 TRP A 421 −9.053 15.039 −23.616 1.00 13.01 ATOM 3223 CE3 TRP A 421 −7.652 15.045 −23.680 1.00 15.38 ATOM 3224 CZ3 TRP A 421 −6.932 14.503 −22.605 1.00 16.10 ATOM 3225 CH2 TRP A 421 −7.603 13.973 −21.475 1.00 14.87 ATOM 3226 CZ2 TRP A 421 −8.973 13.945 −21.398 1.00 14.27 ATOM 3227 C TRP A 421 −12.035 17.514 −26.032 1.00 10.89 ATOM 3228 O TRP A 421 −12.966 17.092 −25.357 1.00 10.96 ATOM 3229 N SER A 422 −11.844 18.822 −26.211 1.00 10.49 ATOM 3230 CA SER A 422 −12.833 19.794 −25.696 1.00 11.13 ATOM 3231 CB SER A 422 −12.459 21.243 −26.049 1.00 10.97 ATOM 3232 OG SER A 422 −11.302 21.682 −25.338 1.00 13.73 ATOM 3233 C SER A 422 −14.229 19.496 −26.257 1.00 11.40 ATOM 3234 O SER A 422 −15.204 19.468 −25.530 1.00 12.11 ATOM 3235 N TYR A 423 −14.320 19.281 −27.563 1.00 11.29 ATOM 3236 CA TYR A 423 −15.617 18.990 −28.170 1.00 11.29 ATOM 3237 CB TYR A 423 −15.502 19.020 −29.717 1.00 11.85 ATOM 3238 CG TYR A 423 −15.132 20.389 −30.274 1.00 12.18 ATOM 3239 CD1 TYR A 423 −16.002 21.485 −30.145 1.00 10.35 ATOM 3240 CE1 TYR A 423 −15.668 22.741 −30.643 1.00 11.83 ATOM 3241 CZ TYR A 423 −14.468 22.912 −31.316 1.00 12.29 ATOM 3242 OH TYR A 423 −14.157 24.145 −31.783 1.00 13.08 ATOM 3243 CE2 TYR A 423 −13.588 21.845 −31.496 1.00 13.57 ATOM 3244 CD2 TYR A 423 −13.942 20.572 −30.991 1.00 12.74 ATOM 3245 C TYR A 423 −16.217 17.673 −27.658 1.00 12.12 ATOM 3246 O TYR A 423 −17.430 17.622 −27.323 1.00 12.13 ATOM 3247 N ALA A 424 −15.385 16.623 −27.539 1.00 10.99 ATOM 3248 CA ALA A 424 −15.853 15.337 −26.986 1.00 11.26 ATOM 3249 CB ALA A 424 −14.717 14.294 −26.952 1.00 11.73 ATOM 3250 C ALA A 424 −16.411 15.535 −25.588 1.00 10.93 ATOM 3251 O ALA A 424 −17.465 14.974 −25.246 1.00 11.68 ATOM 3252 N SER A 425 −15.696 16.308 −24.770 1.00 9.74 ATOM 3253 CA SER A 425 −16.077 16.519 −23.379 1.00 10.92 ATOM 3254 CB SER A 425 −14.948 17.228 −22.602 1.00 11.59 ATOM 3255 OG SER A 425 −14.817 18.604 −22.957 1.00 13.86 ATOM 3256 C SER A 425 −17.402 17.291 −23.219 1.00 11.65 ATOM 3257 O SER A 425 −18.132 17.043 −22.276 1.00 11.86 ATOM 3258 N PHE A 426 −17.683 18.220 −24.133 1.00 12.13 ATOM 3259 CA PHE A 426 −18.983 18.891 −24.154 1.00 12.95 ATOM 3260 CB PHE A 426 −19.018 20.053 −25.173 1.00 13.14 ATOM 3261 CG PHE A 426 −20.410 20.575 −25.391 1.00 15.93 ATOM 3262 CD1 PHE A 426 −20.951 21.522 −24.516 1.00 17.76 ATOM 3263 CE1 PHE A 426 −22.279 21.980 −24.688 1.00 17.49 ATOM 3264 CZ PHE A 426 −23.064 21.455 −25.716 1.00 17.22 ATOM 3265 CE2 PHE A 426 −22.561 20.496 −26.558 1.00 17.04 ATOM 3266 CD2 PHE A 426 −21.225 20.045 −26.396 1.00 17.29 ATOM 3267 C PHE A 426 −20.079 17.878 −24.502 1.00 13.31 ATOM 3268 O PHE A 426 −21.120 17.827 −23.850 1.00 13.38 ATOM 3269 N LEU A 427 −19.834 17.077 −25.539 1.00 13.23 ATOM 3270 CA LEU A 427 −20.811 16.090 −25.996 1.00 14.41 ATOM 3271 CB LEU A 427 −20.339 15.410 −27.291 1.00 14.32 ATOM 3272 CG LEU A 427 −20.363 16.336 −28.506 1.00 15.96 ATOM 3273 CD1 LEU A 427 −19.661 15.639 −29.689 1.00 18.66 ATOM 3274 CD2 LEU A 427 −21.773 16.800 −28.876 1.00 16.20 ATOM 3275 C LEU A 427 −21.137 15.045 −24.959 1.00 14.86 ATOM 3276 O LEU A 427 −22.307 14.667 −24.833 1.00 16.01 ATOM 3277 N THR A 428 −20.130 14.551 −24.235 1.00 13.81 ATOM 3278 CA THR A 428 −20.397 13.544 −23.196 1.00 13.67 ATOM 3279 CB THR A 428 −19.134 12.732 −22.745 1.00 12.87 ATOM 3280 OG1 THR A 428 −18.127 13.597 −22.185 1.00 12.33 ATOM 3281 CG2 THR A 428 −18.533 11.902 −23.923 1.00 13.77 ATOM 3282 C THR A 428 −21.146 14.133 −21.980 1.00 13.66 ATOM 3283 O THR A 428 −22.102 13.517 −21.478 1.00 15.09 ATOM 3284 N ALA A 429 −20.738 15.312 −21.524 1.00 13.72 ATOM 3285 CA ALA A 429 −21.367 15.942 −20.355 1.00 14.65 ATOM 3286 CB ALA A 429 −20.704 17.295 −20.036 1.00 14.11 ATOM 3287 C ALA A 429 −22.852 16.158 −20.643 1.00 15.47 ATOM 3288 O ALA A 429 −23.704 15.908 −19.783 1.00 15.97 ATOM 3289 N THR A 430 −23.151 16.622 −21.854 1.00 15.48 ATOM 3290 CA THR A 430 −24.554 16.940 −22.208 1.00 15.64 ATOM 3291 CB THR A 430 −24.675 17.968 −23.353 1.00 16.50 ATOM 3292 OG1 THR A 430 −23.980 17.494 −24.514 1.00 16.24 ATOM 3293 CG2 THR A 430 −24.101 19.317 −22.916 1.00 16.43 ATOM 3294 C THR A 430 −25.401 15.690 −22.463 1.00 15.41 ATOM 3295 O THR A 430 −26.611 15.674 −22.158 1.00 15.67 ATOM 3296 N ALA A 431 −24.772 14.632 −22.968 1.00 15.22 ATOM 3297 CA ALA A 431 −25.437 13.311 −23.049 1.00 16.26 ATOM 3298 CB ALA A 431 −24.560 12.300 −23.762 1.00 16.39 ATOM 3299 C ALA A 431 −25.842 12.797 −21.673 1.00 16.53 ATOM 3300 O ALA A 431 −26.985 12.319 −21.485 1.00 16.61 ATOM 3301 N ARG A 432 −24.937 12.895 −20.689 1.00 15.66 ATOM 3302 CA ARG A 432 −25.256 12.410 −19.342 1.00 15.64 ATOM 3303 CB ARG A 432 −24.022 12.413 −18.432 1.00 15.83 ATOM 3304 CG ARG A 432 −22.862 11.574 −18.994 1.00 14.85 ATOM 3305 CD ARG A 432 −23.174 10.051 −19.154 1.00 17.10 ATOM 3306 NE ARG A 432 −21.958 9.472 −19.708 1.00 18.67 ATOM 3307 CZ ARG A 432 −21.766 9.225 −21.003 1.00 20.81 ATOM 3308 NH1 ARG A 432 −22.769 9.372 −21.868 1.00 17.45 ATOM 3309 NH2 ARG A 432 −20.576 8.781 −21.427 1.00 19.90 ATOM 3310 C ARG A 432 −26.375 13.235 −18.719 1.00 16.42 ATOM 3311 O ARG A 432 −27.256 12.685 −18.030 1.00 17.47 ATOM 3312 N ARG A 433 −26.371 14.535 −18.996 1.00 16.54 ATOM 3313 CA ARG A 433 −27.425 15.418 −18.493 1.00 17.60 ATOM 3314 CB ARG A 433 −27.204 16.852 −18.960 1.00 16.74 ATOM 3315 CG ARG A 433 −28.287 17.833 −18.461 1.00 18.39 ATOM 3316 CD ARG A 433 −27.931 19.239 −18.866 1.00 20.79 ATOM 3317 NE ARG A 433 −28.739 20.260 −18.166 1.00 23.05 ATOM 3318 CZ ARG A 433 −29.859 20.799 −18.654 1.00 26.97 ATOM 3319 NH1 ARG A 433 −30.333 20.404 −19.837 1.00 24.94 ATOM 3320 NH2 ARG A 433 −30.506 21.738 −17.954 1.00 25.73 ATOM 3321 C ARG A 433 −28.793 14.943 −18.956 1.00 17.90 ATOM 3322 O ARG A 433 −29.761 14.984 −18.184 1.00 18.50 ATOM 3323 N ALA A 434 −28.861 14.502 −20.210 1.00 18.06 ATOM 3324 CA ALA A 434 −30.103 13.993 −20.806 1.00 19.10 ATOM 3325 CB ALA A 434 −30.067 14.202 −22.318 1.00 19.95 ATOM 3326 C ALA A 434 −30.399 12.532 −20.475 1.00 20.48 ATOM 3327 O ALA A 434 −31.371 11.975 −20.980 1.00 21.63 ATOM 3328 N GLY A 435 −29.594 11.904 −19.620 1.00 19.94 ATOM 3329 CA GLY A 435 −29.865 10.531 −19.182 1.00 21.09 ATOM 3330 C GLY A 435 −29.415 9.475 −20.188 1.00 21.57 ATOM 3331 O GLY A 435 −29.847 8.304 −20.130 1.00 21.64 ATOM 3332 N ILE A 436 −28.529 9.873 −21.100 1.00 20.44 ATOM 3333 CA ILE A 436 −27.951 8.937 −22.060 1.00 20.81 ATOM 3334 CB ILE A 436 −27.753 9.601 −23.447 1.00 20.75 ATOM 3335 CG1 ILE A 436 −29.132 9.977 −24.027 1.00 23.03 ATOM 3336 CD1 ILE A 436 −29.103 11.031 −25.128 1.00 26.34 ATOM 3337 CG2 ILE A 436 −27.031 8.643 −24.395 1.00 21.35 ATOM 3338 C ILE A 436 −26.634 8.412 −21.485 1.00 20.99 ATOM 3339 O ILE A 436 −25.666 9.171 −21.339 1.00 20.46 ATOM 3340 N VAL A 437 −26.616 7.120 −21.162 1.00 20.70 ATOM 3341 CA VAL A 437 −25.465 6.479 −20.517 1.00 21.39 ATOM 3342 CB VAL A 437 −25.848 5.826 −19.160 1.00 21.74 ATOM 3343 CG1 VAL A 437 −26.340 6.911 −18.205 1.00 22.12 ATOM 3344 CG2 VAL A 437 −26.909 4.703 −19.334 1.00 21.83 ATOM 3345 C VAL A 437 −24.802 5.459 −21.444 1.00 21.79 ATOM 3346 O VAL A 437 −25.459 4.901 −22.312 1.00 22.18 ATOM 3347 N PRO A 438 −23.497 5.208 −21.255 1.00 22.28 ATOM 3348 CA PRO A 438 −22.837 4.291 −22.181 1.00 22.83 ATOM 3349 CB PRO A 438 −21.365 4.642 −22.009 1.00 22.45 ATOM 3350 CG PRO A 438 −21.248 5.054 −20.578 1.00 23.88 ATOM 3351 CD PRO A 438 −22.575 5.707 −20.214 1.00 22.50 ATOM 3352 C PRO A 438 −23.093 2.840 −21.753 1.00 22.80 ATOM 3353 O PRO A 438 −23.580 2.604 −20.626 1.00 23.06 ATOM 3354 N PRO A 439 −22.796 1.878 −22.639 1.00 22.65 ATOM 3355 CA PRO A 439 −22.911 0.452 −22.283 1.00 22.08 ATOM 3356 CB PRO A 439 −22.300 −0.269 −23.499 1.00 21.30 ATOM 3357 CG PRO A 439 −22.526 0.664 −24.618 1.00 22.81 ATOM 3358 CD PRO A 439 −22.391 2.062 −24.050 1.00 22.29 ATOM 3359 C PRO A 439 −22.122 0.129 −21.037 1.00 21.88 ATOM 3360 O PRO A 439 −21.075 0.750 −20.776 1.00 20.95 ATOM 3361 N SER A 440 −22.628 −0.818 −20.253 1.00 22.34 ATOM 3362 CA SER A 440 −21.932 −1.273 −19.060 1.00 23.42 ATOM 3363 CB SER A 440 −22.818 −2.195 −18.224 1.00 24.01 ATOM 3364 OG SER A 440 −23.805 −1.412 −17.566 1.00 26.78 ATOM 3365 C SER A 440 −20.654 −1.992 −19.430 1.00 23.78 ATOM 3366 O SER A 440 −20.540 −2.554 −20.522 1.00 23.97 ATOM 3367 N TRP A 441 −19.681 −1.929 −18.536 1.00 24.15 ATOM 3368 CA TRP A 441 −18.431 −2.646 −18.718 1.00 24.63 ATOM 3369 CB TRP A 441 −17.255 −1.679 −18.819 1.00 22.62 ATOM 3370 CG TRP A 441 −16.963 −0.837 −17.583 1.00 19.24 ATOM 3371 CD1 TRP A 441 −17.409 0.432 −17.339 1.00 16.95 ATOM 3372 NE1 TRP A 441 −16.909 0.878 −16.138 1.00 17.89 ATOM 3373 CE2 TRP A 441 −16.111 −0.098 −15.595 1.00 17.88 ATOM 3374 CD2 TRP A 441 −16.130 −1.194 −16.476 1.00 18.22 ATOM 3375 CE3 TRP A 441 −15.377 −2.338 −16.149 1.00 19.64 ATOM 3376 CZ3 TRP A 441 −14.658 −2.355 −14.961 1.00 18.61 ATOM 3377 CH2 TRP A 441 −14.670 −1.246 −14.094 1.00 20.62 ATOM 3378 CZ2 TRP A 441 −15.400 −0.114 −14.391 1.00 19.39 ATOM 3379 C TRP A 441 −18.179 −3.661 −17.625 1.00 26.71 ATOM 3380 O TRP A 441 −17.410 −4.592 −17.813 1.00 25.60 ATOM 3381 N ALA A 442 −18.798 −3.471 −16.468 1.00 29.78 ATOM 3382 CA ALA A 442 −18.442 −4.292 −15.330 1.00 33.94 ATOM 3383 CB ALA A 442 −18.347 −3.447 −14.082 1.00 33.18 ATOM 3384 C ALA A 442 −19.447 −5.412 −15.136 1.00 37.28 ATOM 3385 O ALA A 442 −20.383 −5.561 −15.915 1.00 38.51 ATOM 3386 N ASN A 443 −19.201 −6.222 −14.116 1.00 41.45 ATOM 3387 CA ASN A 443 −20.226 −7.030 −13.467 1.00 45.10 ATOM 3388 CB ASN A 443 −20.135 −8.490 −13.914 1.00 45.75 ATOM 3389 CG ASN A 443 −18.815 −9.129 −13.531 1.00 48.14 ATOM 3390 OD1 ASN A 443 −18.620 −9.524 −12.380 1.00 50.51 ATOM 3391 ND2 ASN A 443 −17.888 −9.212 −14.492 1.00 50.01 ATOM 3392 C ASN A 443 −19.946 −6.892 −11.972 1.00 46.93 ATOM 3393 O ASN A 443 −18.878 −6.396 −11.580 1.00 47.13 ATOM 3394 N SER A 444 −20.873 −7.343 −11.135 1.00 49.21 ATOM 3395 CA SER A 444 −20.719 −7.201 −9.684 1.00 51.08 ATOM 3396 CB SER A 444 −21.713 −8.096 −8.936 1.00 51.21 ATOM 3397 OG SER A 444 −21.738 −7.735 −7.563 1.00 52.90 ATOM 3398 C SER A 444 −19.291 −7.452 −9.165 1.00 51.89 ATOM 3399 O SER A 444 −18.743 −6.610 −8.433 1.00 52.46 ATOM 3400 N SER A 445 −18.700 −8.588 −9.558 1.00 52.45 ATOM 3401 CA SER A 445 −17.400 −9.030 −9.029 1.00 52.98 ATOM 3402 CB SER A 445 −17.138 −10.497 −9.385 1.00 53.12 ATOM 3403 OG SER A 445 −16.901 −10.650 −10.775 1.00 54.45 ATOM 3404 C SER A 445 −16.202 −8.159 −9.449 1.00 52.99 ATOM 3405 O SER A 445 −15.184 −8.112 −8.738 1.00 53.28 ATOM 3406 N ALA A 446 −16.328 −7.472 −10.588 1.00 52.67 ATOM 3407 CA ALA A 446 −15.301 −6.536 −11.063 1.00 52.20 ATOM 3408 CB ALA A 446 −15.695 −5.960 −12.425 1.00 52.45 ATOM 3409 C ALA A 446 −14.996 −5.406 −10.059 1.00 51.92 ATOM 3410 O ALA A 446 −14.144 −4.553 −10.322 1.00 51.77 ATOM 3411 N SER A 447 −15.696 −5.413 −8.919 1.00 51.23 ATOM 3412 CA SER A 447 −15.471 −4.453 −7.827 1.00 50.73 ATOM 3413 CB SER A 447 −16.769 −3.706 −7.495 1.00 50.70 ATOM 3414 OG SER A 447 −17.765 −4.605 −7.021 1.00 50.91 ATOM 3415 C SER A 447 −14.886 −5.072 −6.537 1.00 50.31 ATOM 3416 O SER A 447 −14.604 −4.345 −5.580 1.00 50.16 ATOM 3417 N THR A 448 −14.704 −6.394 −6.508 1.00 49.55 ATOM 3418 CA THR A 448 −14.165 −7.070 −5.314 1.00 49.05 ATOM 3419 CB THR A 448 −14.579 −8.561 −5.233 1.00 49.15 ATOM 3420 OG1 THR A 448 −14.076 −9.255 −6.378 1.00 49.97 ATOM 3421 CG2 THR A 448 −16.096 −8.705 −5.180 1.00 49.11 ATOM 3422 C THR A 448 −12.641 −6.958 −5.215 1.00 48.34 ATOM 3423 O THR A 448 −11.911 −7.325 −6.135 1.00 47.84 ATOM 3424 N ILE A 449 −12.174 −6.444 −4.084 1.00 47.93 ATOM 3425 CA ILE A 449 −10.760 −6.150 −3.891 1.00 47.42 ATOM 3426 CB ILE A 449 −10.577 −4.798 −3.142 1.00 47.53 ATOM 3427 CG1 ILE A 449 −11.346 −3.680 −3.863 1.00 46.60 ATOM 3428 CD1 ILE A 449 −11.727 −2.523 −2.981 1.00 45.49 ATOM 3429 CG2 ILE A 449 −9.097 −4.438 −2.999 1.00 46.84 ATOM 3430 C ILE A 449 −10.104 −7.299 −3.124 1.00 47.45 ATOM 3431 O ILE A 449 −10.606 −7.688 −2.067 1.00 47.66 ATOM 3432 N PRO A 450 −8.993 −7.857 −3.663 1.00 47.28 ATOM 3433 CA PRO A 450 −8.202 −8.926 −3.036 1.00 47.25 ATOM 3434 CB PRO A 450 −6.982 −9.040 −3.946 1.00 47.03 ATOM 3435 CG PRO A 450 −7.430 −8.535 −5.237 1.00 47.02 ATOM 3436 CD PRO A 450 −8.431 −7.470 −4.969 1.00 47.07 ATOM 3437 C PRO A 450 −7.731 −8.562 −1.639 1.00 47.48 ATOM 3438 O PRO A 450 −7.608 −7.377 −1.322 1.00 47.43 ATOM 3439 N SER A 451 −7.452 −9.587 −0.832 1.00 47.94 ATOM 3440 CA SER A 451 −7.020 −9.436 0.568 1.00 48.19 ATOM 3441 CB SER A 451 −7.017 −10.801 1.277 1.00 48.52 ATOM 3442 OG SER A 451 −8.297 −11.414 1.235 1.00 49.64 ATOM 3443 C SER A 451 −5.641 −8.799 0.701 1.00 47.83 ATOM 3444 O SER A 451 −5.415 −7.963 1.575 1.00 48.39 ATOM 3445 N THR A 452 −4.715 −9.212 −0.158 1.00 47.14 ATOM 3446 CA THR A 452 −3.379 −8.613 −0.211 1.00 46.42 ATOM 3447 CB THR A 452 −2.323 −9.540 0.434 1.00 46.66 ATOM 3448 OG1 THR A 452 −2.518 −10.887 −0.032 1.00 48.38 ATOM 3449 CG2 THR A 452 −2.446 −9.514 1.962 1.00 47.77 ATOM 3450 C THR A 452 −3.011 −8.323 −1.673 1.00 44.81 ATOM 3451 O THR A 452 −3.348 −9.107 −2.558 1.00 44.97 ATOM 3452 N CYS A 453 −2.363 −7.187 −1.931 1.00 43.37 ATOM 3453 CA CYS A 453 −1.971 −6.854 −3.306 1.00 41.40 ATOM 3454 CB CYS A 453 −1.918 −5.339 −3.574 1.00 41.01 ATOM 3455 SG CYS A 453 −3.187 −4.199 −2.908 1.00 40.58 ATOM 3456 C CYS A 453 −0.591 −7.408 −3.602 1.00 40.33 ATOM 3457 O CYS A 453 0.293 −7.370 −2.753 1.00 39.88 ATOM 3458 N SER A 454 −0.405 −7.911 −4.812 1.00 39.25 ATOM 3459 CA SER A 454 0.937 −8.142 −5.336 1.00 38.68 ATOM 3460 CB SER A 454 1.222 −9.638 −5.484 1.00 38.56 ATOM 3461 OG SER A 454 0.276 −10.251 −6.349 1.00 40.44 ATOM 3462 C SER A 454 1.047 −7.450 −6.690 1.00 37.78 ATOM 3463 O SER A 454 0.030 −7.187 −7.347 1.00 36.71 ATOM 3464 N GLY A 455 2.275 −7.175 −7.111 1.00 37.06 ATOM 3465 CA GLY A 455 2.514 −6.613 −8.431 1.00 36.79 ATOM 3466 C GLY A 455 2.493 −7.658 −9.539 1.00 36.18 ATOM 3467 O GLY A 455 3.410 −7.708 −10.367 1.00 36.73 ATOM 3468 N ALA A 456 1.445 −8.480 −9.562 1.00 35.26 ATOM 3469 CA ALA A 456 1.321 −9.584 −10.512 1.00 34.46 ATOM 3470 CB ALA A 456 0.125 −10.454 −10.158 1.00 34.50 ATOM 3471 C ALA A 456 1.195 −9.111 −11.963 1.00 34.16 ATOM 3472 O ALA A 456 0.283 −8.353 −12.301 1.00 33.56 ATOM 3473 N SER A 457 2.097 −9.588 −12.817 1.00 33.11 ATOM 3474 CA SER A 457 2.013 −9.302 −14.241 1.00 32.60 ATOM 3475 CB SER A 457 3.022 −8.219 −14.635 1.00 32.50 ATOM 3476 OG SER A 457 4.352 −8.691 −14.519 1.00 33.28 ATOM 3477 C SER A 457 2.228 −10.575 −15.044 1.00 32.31 ATOM 3478 O SER A 457 2.641 −11.605 −14.494 1.00 32.32 ATOM 3479 N VAL A 458 1.908 −10.511 −16.330 1.00 31.12 ATOM 3480 CA VAL A 458 2.063 −11.629 −17.246 1.00 31.09 ATOM 3481 CB VAL A 458 0.682 −12.199 −17.659 1.00 31.00 ATOM 3482 CG1 VAL A 458 0.806 −13.173 −18.830 1.00 30.72 ATOM 3483 CG2 VAL A 458 −0.014 −12.847 −16.459 1.00 31.08 ATOM 3484 C VAL A 458 2.817 −11.144 −18.480 1.00 30.88 ATOM 3485 O VAL A 458 2.401 −10.177 −19.126 1.00 29.70 ATOM 3486 N VAL A 459 3.924 −11.811 −18.805 1.00 30.81 ATOM 3487 CA VAL A 459 4.643 −11.525 −20.051 1.00 30.95 ATOM 3488 CB VAL A 459 6.046 −12.172 −20.071 1.00 31.34 ATOM 3489 CG1 VAL A 459 6.664 −12.102 −21.492 1.00 30.45 ATOM 3490 CG2 VAL A 459 6.947 −11.522 −19.030 1.00 32.03 ATOM 3491 C VAL A 459 3.805 −12.032 −21.227 1.00 31.37 ATOM 3492 O VAL A 459 3.443 −13.214 −21.288 1.00 31.84 ATOM 3493 N GLY A 460 3.480 −11.137 −22.154 1.00 30.71 ATOM 3494 CA GLY A 460 2.596 −11.495 −23.258 1.00 30.77 ATOM 3495 C GLY A 460 3.349 −11.799 −24.536 1.00 30.66 ATOM 3496 O GLY A 460 4.585 −11.773 −24.582 1.00 30.90 ATOM 3497 N SER A 461 2.606 −12.094 −25.584 1.00 30.44 ATOM 3498 CA SER A 461 3.219 −12.227 −26.877 1.00 31.06 ATOM 3499 CB SER A 461 3.301 −13.695 −27.308 1.00 31.44 ATOM 3500 OG SER A 461 2.018 −14.278 −27.419 1.00 34.77 ATOM 3501 C SER A 461 2.463 −11.357 −27.864 1.00 30.21 ATOM 3502 O SER A 461 1.246 −11.156 −27.736 1.00 30.87 ATOM 3503 N TYR A 462 3.192 −10.822 −28.836 1.00 28.84 ATOM 3504 CA TYR A 462 2.651 −9.797 −29.712 1.00 28.13 ATOM 3505 CB TYR A 462 3.365 −8.471 −29.426 1.00 26.74 ATOM 3506 CG TYR A 462 3.264 −8.098 −27.976 1.00 25.28 ATOM 3507 CD1 TYR A 462 2.184 −7.335 −27.508 1.00 23.75 ATOM 3508 CE1 TYR A 462 2.066 −7.022 −26.162 1.00 23.41 ATOM 3509 CZ TYR A 462 3.030 −7.458 −25.268 1.00 23.32 ATOM 3510 OH TYR A 462 2.907 −7.155 −23.941 1.00 23.50 ATOM 3511 CE2 TYR A 462 4.113 −8.226 −25.698 1.00 22.57 ATOM 3512 CD2 TYR A 462 4.223 −8.537 −27.050 1.00 24.71 ATOM 3513 C TYR A 462 2.844 −10.191 −31.152 1.00 28.83 ATOM 3514 O TYR A 462 3.898 −10.697 −31.529 1.00 29.33 ATOM 3515 N SER A 463 1.828 −9.973 −31.961 1.00 29.66 ATOM 3516 CA SER A 463 1.970 −10.202 −33.388 1.00 30.77 ATOM 3517 CB SER A 463 1.424 −11.574 −33.784 1.00 30.99 ATOM 3518 OG SER A 463 0.168 −11.815 −33.192 1.00 33.22 ATOM 3519 C SER A 463 1.311 −9.082 −34.170 1.00 31.28 ATOM 3520 O SER A 463 0.329 −8.481 −33.723 1.00 30.40 ATOM 3521 N ARG A 464 1.886 −8.789 −35.330 1.00 31.94 ATOM 3522 CA ARG A 464 1.377 −7.775 −36.225 1.00 32.97 ATOM 3523 CB ARG A 464 2.362 −7.620 −37.385 1.00 33.68 ATOM 3524 CG ARG A 464 2.353 −6.274 −38.061 1.00 36.94 ATOM 3525 CD ARG A 464 3.502 −6.206 −39.088 1.00 42.45 ATOM 3526 NE ARG A 464 4.794 −6.065 −38.415 1.00 45.53 ATOM 3527 CZ ARG A 464 5.416 −4.903 −38.227 1.00 47.50 ATOM 3528 NH1 ARG A 464 4.882 −3.775 −38.688 1.00 49.50 ATOM 3529 NH2 ARG A 464 6.580 −4.863 −37.592 1.00 48.59 ATOM 3530 C ARG A 464 −0.017 −8.171 −36.741 1.00 33.03 ATOM 3531 O ARG A 464 −0.166 −9.228 −37.358 1.00 33.00 ATOM 3532 N PRO A 465 −1.053 −7.333 −36.479 1.00 32.72 ATOM 3533 CA PRO A 465 −2.344 −7.593 −37.131 1.00 32.69 ATOM 3534 CB PRO A 465 −3.274 −6.504 −36.558 1.00 32.50 ATOM 3535 CG PRO A 465 −2.581 −5.981 −35.345 1.00 32.47 ATOM 3536 CD PRO A 465 −1.102 −6.134 −35.618 1.00 32.83 ATOM 3537 C PRO A 465 −2.189 −7.421 −38.642 1.00 33.30 ATOM 3538 O PRO A 465 −1.332 −6.661 −39.097 1.00 33.20 ATOM 3539 N THR A 466 −2.990 −8.136 −39.412 1.00 34.26 ATOM 3540 CA THR A 466 −2.810 −8.131 −40.855 1.00 35.62 ATOM 3541 CB THR A 466 −2.264 −9.486 −41.370 1.00 35.33 ATOM 3542 OG1 THR A 466 −3.225 −10.512 −41.136 1.00 36.81 ATOM 3543 CG2 THR A 466 −0.965 −9.848 −40.656 1.00 35.91 ATOM 3544 C THR A 466 −4.076 −7.711 −41.600 1.00 36.15 ATOM 3545 O THR A 466 −3.983 −7.077 −42.648 1.00 36.93 ATOM 3546 N ALA A 467 −5.242 −8.051 −41.048 1.00 36.82 ATOM 3547 CA ALA A 467 −6.540 −7.648 −41.609 1.00 37.30 ATOM 3548 CB ALA A 467 −7.663 −8.403 −40.930 1.00 37.04 ATOM 3549 C ALA A 467 −6.767 −6.136 −41.509 1.00 38.13 ATOM 3550 O ALA A 467 −6.715 −5.556 −40.417 1.00 37.96 ATOM 3551 N THR A 468 −7.011 −5.502 −42.653 1.00 38.66 ATOM 3552 CA THR A 468 −7.146 −4.050 −42.702 1.00 39.18 ATOM 3553 CB THR A 468 −5.970 −3.406 −43.428 1.00 39.43 ATOM 3554 OG1 THR A 468 −5.955 −3.879 −44.778 1.00 40.06 ATOM 3555 CG2 THR A 468 −4.637 −3.717 −42.734 1.00 39.67 ATOM 3556 C THR A 468 −8.405 −3.591 −43.427 1.00 39.33 ATOM 3557 O THR A 468 −8.468 −2.451 −43.890 1.00 39.79 ATOM 3558 N SER A 469 −9.403 −4.457 −43.529 1.00 39.12 ATOM 3559 CA SER A 469 −10.651 −4.065 −44.176 1.00 39.41 ATOM 3560 CB SER A 469 −10.624 −4.369 −45.684 1.00 39.77 ATOM 3561 OG SER A 469 −10.476 −5.763 −45.916 1.00 41.02 ATOM 3562 C SER A 469 −11.850 −4.732 −43.537 1.00 38.54 ATOM 3563 O SER A 469 −11.771 −5.856 −43.046 1.00 38.85 ATOM 3564 N PHE A 470 −12.962 −4.014 −43.558 1.00 38.00 ATOM 3565 CA PHE A 470 −14.216 −4.507 −43.031 1.00 37.29 ATOM 3566 CB PHE A 470 −14.880 −3.406 −42.220 1.00 36.87 ATOM 3567 CG PHE A 470 −14.277 −3.212 −40.865 1.00 35.43 ATOM 3568 CD1 PHE A 470 −13.146 −2.428 −40.696 1.00 35.15 ATOM 3569 CE1 PHE A 470 −12.589 −2.252 −39.437 1.00 33.73 ATOM 3570 CZ PHE A 470 −13.159 −2.852 −38.332 1.00 35.04 ATOM 3571 CE2 PHE A 470 −14.292 −3.638 −38.479 1.00 36.26 ATOM 3572 CD2 PHE A 470 −14.844 −3.816 −39.751 1.00 35.71 ATOM 3573 C PHE A 470 −15.128 −4.923 −44.181 1.00 37.34 ATOM 3574 O PHE A 470 −15.059 −4.337 −45.258 1.00 37.21 ATOM 3575 N PRO A 471 −15.987 −5.931 −43.959 1.00 37.46 ATOM 3576 CA PRO A 471 −16.983 −6.243 −44.985 1.00 38.04 ATOM 3577 CB PRO A 471 −17.790 −7.383 −44.361 1.00 37.60 ATOM 3578 CG PRO A 471 −16.877 −7.986 −43.337 1.00 38.09 ATOM 3579 CD PRO A 471 −16.093 −6.828 −42.795 1.00 37.31 ATOM 3580 C PRO A 471 −17.879 −5.033 −45.231 1.00 38.96 ATOM 3581 O PRO A 471 −18.108 −4.245 −44.306 1.00 38.78 ATOM 3582 N PRO A 472 −18.378 −4.869 −46.471 1.00 39.78 ATOM 3583 CA PRO A 472 −19.238 −3.723 −46.771 1.00 39.87 ATOM 3584 CB PRO A 472 −19.378 −3.780 −48.293 1.00 40.09 ATOM 3585 CG PRO A 472 −19.171 −5.225 −48.635 1.00 40.28 ATOM 3586 CD PRO A 472 −18.171 −5.740 −47.649 1.00 40.02 ATOM 3587 C PRO A 472 −20.604 −3.864 −46.114 1.00 39.75 ATOM 3588 O PRO A 472 −21.017 −4.980 −45.798 1.00 40.10 ATOM 3589 N SER A 473 −21.268 −2.734 −45.881 1.00 39.71 ATOM 3590 CA SER A 473 −22.675 −2.696 −45.467 1.00 39.61 ATOM 3591 CB SER A 473 −23.571 −3.070 −46.651 1.00 40.16 ATOM 3592 OG SER A 473 −23.468 −2.074 −47.658 1.00 42.55 ATOM 3593 C SER A 473 −23.043 −3.509 −44.221 1.00 38.94 ATOM 3594 O SER A 473 −24.041 −4.258 −44.210 1.00 39.07 ATOM 3595 N GLN A 474 −22.257 −3.340 −43.159 1.00 37.75 ATOM 3596 CA GLN A 474 −22.558 −3.993 −41.888 1.00 36.60 ATOM 3597 CB GLN A 474 −21.291 −4.205 −41.057 1.00 36.41 ATOM 3598 CG GLN A 474 −20.331 −5.169 −41.732 1.00 36.24 ATOM 3599 CD GLN A 474 −19.295 −5.757 −40.795 1.00 36.45 ATOM 3600 OE1 GLN A 474 −18.478 −5.040 −40.211 1.00 35.30 ATOM 3601 NE2 GLN A 474 −19.304 −7.077 −40.671 1.00 36.85 ATOM 3602 C GLN A 474 −23.620 −3.191 −41.149 1.00 36.40 ATOM 3603 O GLN A 474 −23.329 −2.444 −40.208 1.00 35.99 ATOM 3604 N THR A 475 −24.859 −3.350 −41.616 1.00 35.59 ATOM 3605 CA THR A 475 −26.012 −2.595 −41.148 1.00 35.20 ATOM 3606 CB THR A 475 −27.051 −2.478 −42.287 1.00 35.73 ATOM 3607 OG1 THR A 475 −27.120 −3.737 −42.959 1.00 36.85 ATOM 3608 CG2 THR A 475 −26.642 −1.418 −43.310 1.00 34.51 ATOM 3609 C THR A 475 −26.635 −3.256 −39.910 1.00 35.16 ATOM 3610 O THR A 475 −26.363 −4.420 −39.622 1.00 34.47 ATOM 3611 N PRO A 476 −27.453 −2.510 −39.148 1.00 35.36 ATOM 3612 CA PRO A 476 −27.990 −3.111 −37.923 1.00 36.40 ATOM 3613 CB PRO A 476 −28.567 −1.910 −37.167 1.00 36.04 ATOM 3614 CG PRO A 476 −28.890 −0.912 −38.230 1.00 35.98 ATOM 3615 CD PRO A 476 −27.907 −1.119 −39.339 1.00 35.70 ATOM 3616 C PRO A 476 −29.085 −4.171 −38.158 1.00 37.45 ATOM 3617 O PRO A 476 −29.654 −4.244 −39.254 1.00 36.95 ATOM 3618 N LYS A 477 −29.342 −4.984 −37.133 1.00 39.01 ATOM 3619 CA LYS A 477 −30.472 −5.911 −37.111 1.00 41.20 ATOM 3620 CB LYS A 477 −30.541 −6.641 −35.774 1.00 41.46 ATOM 3621 CG LYS A 477 −29.665 −7.850 −35.604 1.00 41.87 ATOM 3622 CD LYS A 477 −29.939 −8.517 −34.237 1.00 42.36 ATOM 3623 CE LYS A 477 −29.996 −7.497 −33.076 1.00 44.55 ATOM 3624 NZ LYS A 477 −29.705 −8.110 −31.718 1.00 44.56 ATOM 3625 C LYS A 477 −31.766 −5.118 −37.230 1.00 42.27 ATOM 3626 O LYS A 477 −31.818 −3.960 −36.798 1.00 42.18 ATOM 3627 N PRO A 478 −32.831 −5.743 −37.780 1.00 43.46 ATOM 3628 CA PRO A 478 −34.150 −5.106 −37.669 1.00 44.02 ATOM 3629 CB PRO A 478 −35.106 −6.144 −38.267 1.00 43.89 ATOM 3630 CG PRO A 478 −34.255 −7.033 −39.105 1.00 44.08 ATOM 3631 CD PRO A 478 −32.885 −7.034 −38.493 1.00 43.41 ATOM 3632 C PRO A 478 −34.480 −4.892 −36.194 1.00 44.52 ATOM 3633 O PRO A 478 −34.197 −5.769 −35.364 1.00 44.73 ATOM 3634 N GLY A 479 −35.043 −3.728 −35.874 1.00 45.20 ATOM 3635 CA GLY A 479 −35.421 −3.395 −34.494 1.00 45.90 ATOM 3636 C GLY A 479 −34.386 −2.601 −33.711 1.00 46.37 ATOM 3637 O GLY A 479 −34.576 −2.331 −32.520 1.00 46.98 ATOM 3638 N VAL A 480 −33.282 −2.244 −34.367 1.00 46.28 ATOM 3639 CA VAL A 480 −32.261 −1.383 −33.760 1.00 46.15 ATOM 3640 CB VAL A 480 −30.820 −1.863 −34.121 1.00 46.20 ATOM 3641 CG1 VAL A 480 −29.755 −0.899 −33.584 1.00 45.85 ATOM 3642 CG2 VAL A 480 −30.569 −3.281 −33.603 1.00 46.25 ATOM 3643 C VAL A 480 −32.498 0.046 −34.260 1.00 45.93 ATOM 3644 O VAL A 480 −32.673 0.240 −35.465 1.00 46.15 ATOM 3645 N PRO A 481 −32.534 1.049 −33.344 1.00 45.70 ATOM 3646 CA PRO A 481 −32.648 2.443 −33.804 1.00 45.36 ATOM 3647 CB PRO A 481 −32.388 3.266 −32.542 1.00 45.39 ATOM 3648 CG PRO A 481 −32.778 2.375 −31.427 1.00 45.52 ATOM 3649 CD PRO A 481 −32.481 0.962 −31.873 1.00 45.83 ATOM 3650 C PRO A 481 −31.609 2.762 −34.877 1.00 45.08 ATOM 3651 O PRO A 481 −30.405 2.555 −34.681 1.00 44.45 ATOM 3652 N SER A 482 −32.100 3.241 −36.011 1.00 44.83 ATOM 3653 CA SER A 482 −31.281 3.485 −37.180 1.00 44.52 ATOM 3654 CB SER A 482 −31.502 2.375 −38.211 1.00 44.74 ATOM 3655 OG SER A 482 −30.769 2.622 −39.399 1.00 45.89 ATOM 3656 C SER A 482 −31.661 4.836 −37.765 1.00 43.84 ATOM 3657 O SER A 482 −32.836 5.219 −37.741 1.00 44.07 ATOM 3658 N GLY A 483 −30.667 5.550 −38.282 1.00 42.68 ATOM 3659 CA GLY A 483 −30.872 6.872 −38.853 1.00 41.64 ATOM 3660 C GLY A 483 −30.085 7.095 −40.130 1.00 41.05 ATOM 3661 O GLY A 483 −29.430 6.179 −40.647 1.00 41.09 ATOM 3662 N THR A 484 −30.155 8.317 −40.647 1.00 40.22 ATOM 3663 CA THR A 484 −29.461 8.677 −41.888 1.00 39.91 ATOM 3664 CB THR A 484 −30.148 9.876 −42.619 1.00 40.21 ATOM 3665 OG1 THR A 484 −30.115 11.040 −41.780 1.00 41.48 ATOM 3666 CG2 THR A 484 −31.604 9.541 −43.000 1.00 40.86 ATOM 3667 C THR A 484 −27.995 9.033 −41.603 1.00 38.43 ATOM 3668 O THR A 484 −27.669 9.421 −40.483 1.00 38.52 ATOM 3669 N PRO A 485 −27.109 8.893 −42.612 1.00 37.36 ATOM 3670 CA PRO A 485 −25.695 9.226 −42.413 1.00 36.29 ATOM 3671 CB PRO A 485 −25.077 8.974 −43.795 1.00 36.75 ATOM 3672 CG PRO A 485 −25.997 7.985 −44.442 1.00 37.04 ATOM 3673 CD PRO A 485 −27.359 8.393 −43.976 1.00 37.30 ATOM 3674 C PRO A 485 −25.460 10.684 −41.988 1.00 35.20 ATOM 3675 O PRO A 485 −26.201 11.599 −42.396 1.00 34.39 ATOM 3676 N TYR A 486 −24.428 10.887 −41.174 1.00 33.60 ATOM 3677 CA TYR A 486 −24.025 12.233 −40.782 1.00 32.74 ATOM 3678 CB TYR A 486 −22.821 12.180 −39.826 1.00 32.31 ATOM 3679 CG TYR A 486 −22.348 13.564 −39.452 1.00 32.79 ATOM 3680 CD1 TYR A 486 −21.243 14.146 −40.083 1.00 31.74 ATOM 3681 CE1 TYR A 486 −20.827 15.430 −39.742 1.00 30.85 ATOM 3682 CZ TYR A 486 −21.527 16.141 −38.778 1.00 31.99 ATOM 3683 OH TYR A 486 −21.143 17.423 −38.427 1.00 32.20 ATOM 3684 CE2 TYR A 486 −22.629 15.588 −38.160 1.00 31.88 ATOM 3685 CD2 TYR A 486 −23.036 14.311 −38.500 1.00 32.49 ATOM 3686 C TYR A 486 −23.652 13.082 −41.999 1.00 31.99 ATOM 3687 O TYR A 486 −22.949 12.602 −42.900 1.00 31.62 ATOM 3688 N THR A 487 −24.106 14.336 −42.004 1.00 31.14 ATOM 3689 CA THR A 487 −23.676 15.336 −42.986 1.00 31.43 ATOM 3690 CB THR A 487 −24.879 15.785 −43.869 1.00 31.94 ATOM 3691 OG1 THR A 487 −25.321 14.665 −44.644 1.00 35.19 ATOM 3692 CG2 THR A 487 −24.489 16.904 −44.810 1.00 32.95 ATOM 3693 C THR A 487 −23.110 16.561 −42.261 1.00 29.79 ATOM 3694 O THR A 487 −23.761 17.078 −41.363 1.00 29.20 ATOM 3695 N PRO A 488 −21.901 17.027 −42.644 1.00 29.20 ATOM 3696 CA PRO A 488 −21.309 18.228 −42.005 1.00 28.77 ATOM 3697 CB PRO A 488 −19.988 18.435 −42.763 1.00 28.75 ATOM 3698 CG PRO A 488 −19.684 17.126 −43.408 1.00 29.52 ATOM 3699 CD PRO A 488 −21.010 16.448 −43.667 1.00 29.41 ATOM 3700 C PRO A 488 −22.175 19.463 −42.194 1.00 28.44 ATOM 3701 O PRO A 488 −23.003 19.499 −43.116 1.00 28.51 ATOM 3702 N LEU A 489 −21.971 20.469 −41.345 1.00 27.28 ATOM 3703 CA LEU A 489 −22.606 21.775 −41.522 1.00 26.52 ATOM 3704 CB LEU A 489 −22.269 22.708 −40.365 1.00 27.19 ATOM 3705 CG LEU A 489 −22.805 22.303 −38.987 1.00 27.53 ATOM 3706 CD1 LEU A 489 −22.233 23.242 −37.929 1.00 26.81 ATOM 3707 CD2 LEU A 489 −24.332 22.323 −38.970 1.00 28.98 ATOM 3708 C LEU A 489 −22.137 22.402 −42.833 1.00 26.65 ATOM 3709 O LEU A 489 −20.983 22.210 −43.245 1.00 25.40 ATOM 3710 N PRO A 490 −23.030 23.153 −43.503 1.00 26.84 ATOM 3711 CA PRO A 490 −22.636 23.745 −44.786 1.00 26.44 ATOM 3712 CB PRO A 490 −23.983 24.107 −45.432 1.00 27.00 ATOM 3713 CG PRO A 490 −24.900 24.341 −44.289 1.00 27.68 ATOM 3714 CD PRO A 490 −24.425 23.475 −43.137 1.00 26.91 ATOM 3715 C PRO A 490 −21.737 24.982 −44.668 1.00 26.22 ATOM 3716 O PRO A 490 −21.826 25.729 −43.698 1.00 25.74 ATOM 3717 N CYS A 491 −20.858 25.182 −45.650 1.00 26.06 ATOM 3718 CA CYS A 491 −20.079 26.412 −45.754 1.00 26.88 ATOM 3719 CB CYS A 491 −18.630 26.194 −45.302 1.00 27.00 ATOM 3720 SG CYS A 491 −18.450 25.196 −43.819 1.00 27.23 ATOM 3721 C CYS A 491 −20.032 26.822 −47.217 1.00 27.27 ATOM 3722 O CYS A 491 −20.369 26.026 −48.083 1.00 27.34 ATOM 3723 N ALA A 492 −19.577 28.045 −47.484 1.00 28.05 ATOM 3724 CA ALA A 492 −19.205 28.449 −48.845 1.00 29.40 ATOM 3725 CB ALA A 492 −18.837 29.928 −48.866 1.00 29.49 ATOM 3726 C ALA A 492 −18.023 27.599 −49.320 1.00 30.37 ATOM 3727 O ALA A 492 −17.310 26.998 −48.497 1.00 30.36 ATOM 3728 N THR A 493 −17.828 27.508 −50.633 1.00 31.27 ATOM 3729 CA THR A 493 −16.612 26.883 −51.163 1.00 32.43 ATOM 3730 CB THR A 493 −16.845 26.234 −52.533 1.00 33.22 ATOM 3731 OG1 THR A 493 −17.944 25.324 −52.431 1.00 38.55 ATOM 3732 CG2 THR A 493 −15.590 25.464 −52.996 1.00 33.71 ATOM 3733 C THR A 493 −15.596 28.006 −51.254 1.00 31.35 ATOM 3734 O THR A 493 −15.916 29.068 −51.795 1.00 31.58 ATOM 3735 N PRO A 494 −14.390 27.815 −50.682 1.00 30.44 ATOM 3736 CA PRO A 494 −13.464 28.947 −50.696 1.00 30.01 ATOM 3737 CB PRO A 494 −12.414 28.555 −49.645 1.00 30.26 ATOM 3738 CG PRO A 494 −12.416 27.077 −49.658 1.00 30.56 ATOM 3739 CD PRO A 494 −13.815 26.635 −49.997 1.00 30.85 ATOM 3740 C PRO A 494 −12.809 29.089 −52.060 1.00 28.81 ATOM 3741 O PRO A 494 −12.801 28.137 −52.834 1.00 28.82 ATOM 3742 N THR A 495 −12.260 30.258 −52.352 1.00 28.43 ATOM 3743 CA THR A 495 −11.551 30.419 −53.623 1.00 28.44 ATOM 3744 CB THR A 495 −11.885 31.748 −54.319 1.00 28.68 ATOM 3745 OG1 THR A 495 −11.449 32.839 −53.500 1.00 30.39 ATOM 3746 CG2 THR A 495 −13.383 31.858 −54.564 1.00 29.85 ATOM 3747 C THR A 495 −10.057 30.335 −53.404 1.00 27.94 ATOM 3748 O THR A 495 −9.289 30.159 −54.352 1.00 27.63 ATOM 3749 N SER A 496 −9.671 30.463 −52.139 1.00 27.51 ATOM 3750 CA SER A 496 −8.279 30.492 −51.722 1.00 27.18 ATOM 3751 CB SER A 496 −7.928 31.916 −51.329 1.00 27.72 ATOM 3752 OG SER A 496 −6.531 32.076 −51.240 1.00 32.60 ATOM 3753 C SER A 496 −8.134 29.583 −50.501 1.00 25.85 ATOM 3754 O SER A 496 −9.024 29.548 −49.634 1.00 25.10 ATOM 3755 N VAL A 497 −7.039 28.824 −50.430 1.00 24.43 ATOM 3756 CA VAL A 497 −6.801 28.032 −49.209 1.00 22.17 ATOM 3757 CB VAL A 497 −7.281 26.511 −49.290 1.00 23.00 ATOM 3758 CG1 VAL A 497 −6.224 25.445 −48.881 1.00 22.48 ATOM 3759 CG2 VAL A 497 −8.049 26.161 −50.578 1.00 22.62 ATOM 3760 C VAL A 497 −5.388 28.251 −48.672 1.00 21.13 ATOM 3761 O VAL A 497 −4.419 28.359 −49.439 1.00 20.38 ATOM 3762 N ALA A 498 −5.302 28.395 −47.355 1.00 19.70 ATOM 3763 CA ALA A 498 −4.020 28.576 −46.702 1.00 18.92 ATOM 3764 CB ALA A 498 −4.226 29.126 −45.290 1.00 19.31 ATOM 3765 C ALA A 498 −3.396 27.185 −46.655 1.00 18.67 ATOM 3766 O ALA A 498 −3.966 26.266 −46.047 1.00 19.29 ATOM 3767 N VAL A 499 −2.252 27.021 −47.319 1.00 17.23 ATOM 3768 CA VAL A 499 −1.551 25.735 −47.361 1.00 16.09 ATOM 3769 CB VAL A 499 −1.165 25.347 −48.814 1.00 16.97 ATOM 3770 CG1 VAL A 499 −0.403 23.984 −48.863 1.00 16.08 ATOM 3771 CG2 VAL A 499 −2.413 25.291 −49.696 1.00 17.03 ATOM 3772 C VAL A 499 −0.306 25.841 −46.491 1.00 15.95 ATOM 3773 O VAL A 499 0.604 26.607 −46.791 1.00 16.15 ATOM 3774 N THR A 500 −0.279 25.085 −45.404 1.00 15.16 ATOM 3775 CA THR A 500 0.863 25.116 −44.505 1.00 14.85 ATOM 3776 CB THR A 500 0.415 24.916 −43.035 1.00 14.76 ATOM 3777 OG1 THR A 500 −0.403 26.022 −42.635 1.00 16.00 ATOM 3778 CG2 THR A 500 1.639 24.856 −42.136 1.00 15.39 ATOM 3779 C THR A 500 1.796 23.993 −44.932 1.00 14.99 ATOM 3780 O THR A 500 1.480 22.804 −44.792 1.00 14.81 ATOM 3781 N PHE A 501 2.941 24.370 −45.481 1.00 14.71 ATOM 3782 CA PHE A 501 3.981 23.411 −45.793 1.00 15.64 ATOM 3783 CB PHE A 501 4.943 23.964 −46.832 1.00 15.86 ATOM 3784 CG PHE A 501 4.289 24.172 −48.168 1.00 18.38 ATOM 3785 CD1 PHE A 501 3.676 25.388 −48.469 1.00 19.85 ATOM 3786 CE1 PHE A 501 3.052 25.581 −49.709 1.00 21.58 ATOM 3787 CZ PHE A 501 3.015 24.547 −50.642 1.00 19.80 ATOM 3788 CE2 PHE A 501 3.607 23.324 −50.356 1.00 21.69 ATOM 3789 CD2 PHE A 501 4.231 23.134 −49.095 1.00 21.96 ATOM 3790 C PHE A 501 4.711 23.009 −44.536 1.00 15.81 ATOM 3791 O PHE A 501 5.207 23.852 −43.804 1.00 16.78 ATOM 3792 N HIS A 502 4.789 21.698 −44.317 1.00 14.85 ATOM 3793 CA HIS A 502 5.239 21.175 −43.027 1.00 14.17 ATOM 3794 CB HIS A 502 3.987 20.565 −42.356 1.00 14.85 ATOM 3795 CG HIS A 502 4.221 19.875 −41.054 1.00 13.69 ATOM 3796 ND1 HIS A 502 4.819 18.637 −40.966 1.00 12.55 ATOM 3797 CE1 HIS A 502 4.816 18.241 −39.702 1.00 15.76 ATOM 3798 NE2 HIS A 502 4.191 19.155 −38.980 1.00 14.42 ATOM 3799 CD2 HIS A 502 3.797 20.183 −39.804 1.00 14.92 ATOM 3800 C HIS A 502 6.317 20.161 −43.412 1.00 14.16 ATOM 3801 O HIS A 502 6.013 19.043 −43.824 1.00 13.85 ATOM 3802 N GLU A 503 7.577 20.590 −43.352 1.00 13.63 ATOM 3803 CA GLU A 503 8.678 19.821 −43.968 1.00 14.46 ATOM 3804 CB GLU A 503 9.434 20.712 −44.996 1.00 14.22 ATOM 3805 CG GLU A 503 10.782 20.121 −45.524 1.00 16.31 ATOM 3806 CD GLU A 503 10.620 18.973 −46.539 1.00 21.32 ATOM 3807 OE1 GLU A 503 11.523 18.819 −47.393 1.00 21.21 ATOM 3808 OE2 GLU A 503 9.609 18.230 −46.510 1.00 20.10 ATOM 3809 C GLU A 503 9.657 19.322 −42.917 1.00 14.22 ATOM 3810 O GLU A 503 10.175 20.121 −42.131 1.00 15.31 ATOM 3811 N LEU A 504 9.960 18.027 −42.927 1.00 14.92 ATOM 3812 CA LEU A 504 11.026 17.518 −42.052 1.00 15.49 ATOM 3813 CB LEU A 504 10.658 16.147 −41.489 1.00 16.33 ATOM 3814 CG LEU A 504 9.479 16.178 −40.498 1.00 17.19 ATOM 3815 CD1 LEU A 504 8.922 14.753 −40.320 1.00 19.08 ATOM 3816 CD2 LEU A 504 9.953 16.723 −39.198 1.00 17.28 ATOM 3817 C LEU A 504 12.318 17.428 −42.846 1.00 16.59 ATOM 3818 O LEU A 504 12.403 16.656 −43.785 1.00 16.72 ATOM 3819 N VAL A 505 13.317 18.201 −42.444 1.00 17.20 ATOM 3820 CA VAL A 505 14.592 18.235 −43.154 1.00 19.16 ATOM 3821 CB VAL A 505 14.548 19.141 −44.418 1.00 18.88 ATOM 3822 CG1 VAL A 505 14.028 20.539 −44.090 1.00 19.28 ATOM 3823 CG2 VAL A 505 15.948 19.219 −45.095 1.00 21.65 ATOM 3824 C VAL A 505 15.674 18.705 −42.188 1.00 20.00 ATOM 3825 O VAL A 505 15.595 19.785 −41.595 1.00 19.92 ATOM 3826 N SER A 506 16.685 17.868 −42.011 1.00 21.73 ATOM 3827 CA SER A 506 17.761 18.216 −41.104 1.00 23.33 ATOM 3828 CB SER A 506 18.570 16.974 −40.771 1.00 23.74 ATOM 3829 OG SER A 506 19.583 17.320 −39.847 1.00 28.30 ATOM 3830 C SER A 506 18.646 19.284 −41.759 1.00 23.03 ATOM 3831 O SER A 506 19.070 19.139 −42.908 1.00 23.20 ATOM 3832 N THR A 507 18.888 20.371 −41.049 1.00 24.01 ATOM 3833 CA THR A 507 19.685 21.464 −41.600 1.00 25.15 ATOM 3834 CB THR A 507 18.845 22.725 −41.833 1.00 25.01 ATOM 3835 OG1 THR A 507 18.104 23.015 −40.650 1.00 24.43 ATOM 3836 CG2 THR A 507 17.891 22.536 −43.000 1.00 24.71 ATOM 3837 C THR A 507 20.795 21.812 −40.623 1.00 27.09 ATOM 3838 O THR A 507 20.729 21.448 −39.451 1.00 26.15 ATOM 3839 N GLN A 508 21.798 22.536 −41.113 1.00 29.34 ATOM 3840 CA GLN A 508 22.912 22.986 −40.272 1.00 32.54 ATOM 3841 CB GLN A 508 24.239 22.542 −40.897 1.00 32.54 ATOM 3842 CG GLN A 508 24.369 21.010 −40.972 1.00 34.32 ATOM 3843 CD GLN A 508 25.400 20.515 −41.991 1.00 36.23 ATOM 3844 OE1 GLN A 508 26.283 19.700 −41.660 1.00 41.79 ATOM 3845 NE2 GLN A 508 25.279 20.977 −43.242 1.00 40.42 ATOM 3846 C GLN A 508 22.827 24.502 −40.100 1.00 33.06 ATOM 3847 O GLN A 508 22.136 25.178 −40.873 1.00 32.49 ATOM 3848 N PHE A 509 23.494 25.037 −39.075 1.00 33.80 ATOM 3849 CA PHE A 509 23.432 26.476 −38.782 1.00 35.03 ATOM 3850 CB PHE A 509 24.413 26.837 −37.651 1.00 36.75 ATOM 3851 CG PHE A 509 24.481 28.315 −37.340 1.00 39.07 ATOM 3852 CD1 PHE A 509 23.592 28.893 −36.428 1.00 41.58 ATOM 3853 CE1 PHE A 509 23.642 30.265 −36.140 1.00 42.61 ATOM 3854 CZ PHE A 509 24.603 31.073 −36.766 1.00 41.78 ATOM 3855 CE2 PHE A 509 25.507 30.503 −37.678 1.00 42.48 ATOM 3856 CD2 PHE A 509 25.441 29.127 −37.955 1.00 41.46 ATOM 3857 C PHE A 509 23.712 27.311 −40.040 1.00 34.58 ATOM 3858 O PHE A 509 24.614 26.990 −40.815 1.00 34.58 ATOM 3859 N GLY A 510 22.912 28.355 −40.256 1.00 33.85 ATOM 3860 CA GLY A 510 23.101 29.241 −41.407 1.00 33.22 ATOM 3861 C GLY A 510 22.352 28.826 −42.671 1.00 32.36 ATOM 3862 O GLY A 510 22.369 29.545 −43.679 1.00 32.97 ATOM 3863 N GLN A 511 21.705 27.663 −42.628 1.00 30.50 ATOM 3864 CA GLN A 511 20.885 27.217 −43.745 1.00 29.02 ATOM 3865 CB GLN A 511 21.026 25.712 −43.931 1.00 28.92 ATOM 3866 CG GLN A 511 22.436 25.276 −44.349 1.00 29.91 ATOM 3867 CD GLN A 511 22.571 23.776 −44.439 1.00 31.36 ATOM 3868 OE1 GLN A 511 21.760 23.036 −43.879 1.00 31.69 ATOM 3869 NE2 GLN A 511 23.590 23.309 −45.160 1.00 30.72 ATOM 3870 C GLN A 511 19.418 27.619 −43.543 1.00 27.82 ATOM 3871 O GLN A 511 18.928 27.695 −42.399 1.00 27.36 ATOM 3872 N THR A 512 18.727 27.895 −44.650 1.00 25.92 ATOM 3873 CA THR A 512 17.305 28.271 −44.613 1.00 24.51 ATOM 3874 CB THR A 512 17.126 29.763 −44.994 1.00 24.95 ATOM 3875 OG1 THR A 512 17.769 30.580 −44.004 1.00 27.43 ATOM 3876 CG2 THR A 512 15.653 30.151 −45.069 1.00 25.94 ATOM 3877 C THR A 512 16.536 27.384 −45.600 1.00 23.09 ATOM 3878 O THR A 512 16.994 27.152 −46.717 1.00 22.75 ATOM 3879 N VAL A 513 15.376 26.877 −45.200 1.00 20.62 ATOM 3880 CA VAL A 513 14.593 26.074 −46.136 1.00 19.05 ATOM 3881 CB VAL A 513 13.946 24.855 −45.428 1.00 19.18 ATOM 3882 CG1 VAL A 513 13.041 24.064 −46.397 1.00 18.87 ATOM 3883 CG2 VAL A 513 15.042 23.938 −44.895 1.00 20.56 ATOM 3884 C VAL A 513 13.536 26.979 −46.748 1.00 17.98 ATOM 3885 O VAL A 513 12.910 27.768 −46.029 1.00 16.65 ATOM 3886 N LYS A 514 13.346 26.857 −48.063 1.00 17.91 ATOM 3887 CA LYS A 514 12.279 27.583 −48.757 1.00 18.14 ATOM 3888 CB LYS A 514 12.845 28.712 −49.638 1.00 17.66 ATOM 3889 CG LYS A 514 13.867 29.576 −48.945 1.00 19.26 ATOM 3890 CD LYS A 514 14.197 30.839 −49.765 1.00 21.27 ATOM 3891 CE LYS A 514 15.224 31.675 −49.001 1.00 26.06 ATOM 3892 NZ LYS A 514 15.461 33.022 −49.626 1.00 28.70 ATOM 3893 C LYS A 514 11.494 26.621 −49.625 1.00 18.22 ATOM 3894 O LYS A 514 11.949 25.502 −49.912 1.00 18.39 ATOM 3895 N VAL A 515 10.304 27.037 −50.045 1.00 18.20 ATOM 3896 CA VAL A 515 9.546 26.212 −50.980 1.00 19.00 ATOM 3897 CB VAL A 515 8.198 25.731 −50.404 1.00 20.00 ATOM 3898 CG1 VAL A 515 7.403 26.904 −49.879 1.00 21.01 ATOM 3899 CG2 VAL A 515 7.417 24.903 −51.447 1.00 20.10 ATOM 3900 C VAL A 515 9.421 26.973 −52.302 1.00 18.89 ATOM 3901 O VAL A 515 9.079 28.159 −52.317 1.00 18.67 ATOM 3902 N ALA A 516 9.781 26.295 −53.390 1.00 19.87 ATOM 3903 CA ALA A 516 9.796 26.898 −54.732 1.00 20.38 ATOM 3904 CB ALA A 516 11.177 26.768 −55.356 1.00 20.58 ATOM 3905 C ALA A 516 8.789 26.110 −55.525 1.00 20.65 ATOM 3906 O ALA A 516 8.638 24.910 −55.303 1.00 20.40 ATOM 3907 N GLY A 517 8.075 26.765 −56.430 1.00 20.80 ATOM 3908 CA GLY A 517 7.092 26.039 −57.214 1.00 22.32 ATOM 3909 C GLY A 517 6.536 26.853 −58.352 1.00 22.86 ATOM 3910 O GLY A 517 6.902 28.024 −58.527 1.00 22.58 ATOM 3911 N ASN A 518 5.642 26.233 −59.116 1.00 24.66 ATOM 3912 CA ASN A 518 5.201 26.817 −60.390 1.00 26.74 ATOM 3913 CB ASN A 518 4.670 25.754 −61.354 1.00 26.97 ATOM 3914 CG ASN A 518 3.386 25.117 −60.872 1.00 31.69 ATOM 3915 OD1 ASN A 518 3.004 25.226 −59.677 1.00 28.89 ATOM 3916 ND2 ASN A 518 2.707 24.419 −61.786 1.00 31.65 ATOM 3917 C ASN A 518 4.199 27.937 −60.232 1.00 27.20 ATOM 3918 O ASN A 518 4.154 28.822 −61.079 1.00 28.68 ATOM 3919 N ALA A 519 3.399 27.907 −59.163 1.00 27.04 ATOM 3920 CA ALA A 519 2.424 28.978 −58.898 1.00 26.47 ATOM 3921 CB ALA A 519 1.473 28.598 −57.747 1.00 27.02 ATOM 3922 C ALA A 519 3.090 30.322 −58.629 1.00 26.35 ATOM 3923 O ALA A 519 4.226 30.394 −58.135 1.00 25.27 ATOM 3924 N ALA A 520 2.369 31.394 −58.954 1.00 26.25 ATOM 3925 CA ALA A 520 2.887 32.741 −58.784 1.00 26.77 ATOM 3926 CB ALA A 520 1.872 33.775 −59.298 1.00 27.50 ATOM 3927 C ALA A 520 3.250 33.004 −57.317 1.00 26.68 ATOM 3928 O ALA A 520 4.301 33.560 −57.030 1.00 26.01 ATOM 3929 N ALA A 521 2.395 32.548 −56.399 1.00 26.75 ATOM 3930 CA ALA A 521 2.628 32.712 −54.963 1.00 26.82 ATOM 3931 CB ALA A 521 1.395 32.251 −54.167 1.00 26.85 ATOM 3932 C ALA A 521 3.876 31.950 −54.504 1.00 26.51 ATOM 3933 O ALA A 521 4.485 32.305 −53.494 1.00 26.63 ATOM 3934 N LEU A 522 4.261 30.919 −55.259 1.00 26.79 ATOM 3935 CA LEU A 522 5.452 30.113 −54.932 1.00 26.50 ATOM 3936 CB LEU A 522 5.185 28.626 −55.155 1.00 26.64 ATOM 3937 CG LEU A 522 4.224 27.946 −54.169 1.00 26.58 ATOM 3938 CD1 LEU A 522 4.049 26.489 −54.533 1.00 27.59 ATOM 3939 CD2 LEU A 522 4.718 28.092 −52.730 1.00 28.08 ATOM 3940 C LEU A 522 6.696 30.559 −55.709 1.00 26.54 ATOM 3941 O LEU A 522 7.779 29.987 −55.547 1.00 25.56 ATOM 3942 N GLY A 523 6.518 31.575 −56.552 1.00 26.25 ATOM 3943 CA GLY A 523 7.637 32.267 −57.199 1.00 26.16 ATOM 3944 C GLY A 523 7.996 31.809 −58.607 1.00 26.84 ATOM 3945 O GLY A 523 9.029 32.227 −59.152 1.00 25.81 ATOM 3946 N ASN A 524 7.162 30.946 −59.193 1.00 27.13 ATOM 3947 CA ASN A 524 7.413 30.419 −60.539 1.00 27.74 ATOM 3948 CB ASN A 524 7.046 31.484 −61.591 1.00 28.43 ATOM 3949 CG ASN A 524 7.123 30.960 −63.015 1.00 30.79 ATOM 3950 OD1 ASN A 524 6.856 29.780 −63.285 1.00 30.80 ATOM 3951 ND2 ASN A 524 7.515 31.838 −63.936 1.00 33.61 ATOM 3952 C ASN A 524 8.845 29.857 −60.710 1.00 28.44 ATOM 3953 O ASN A 524 9.531 30.104 −61.720 1.00 27.82 ATOM 3954 N TRP A 525 9.280 29.111 −59.693 1.00 27.99 ATOM 3955 CA TRP A 525 10.573 28.398 −59.659 1.00 28.92 ATOM 3956 CB TRP A 525 10.787 27.507 −60.896 1.00 28.31 ATOM 3957 CG TRP A 525 9.803 26.394 −61.060 1.00 27.68 ATOM 3958 CD1 TRP A 525 8.902 26.247 −62.078 1.00 27.96 ATOM 3959 NE1 TRP A 525 8.166 25.106 −61.907 1.00 27.55 ATOM 3960 CE2 TRP A 525 8.589 24.471 −60.762 1.00 30.58 ATOM 3961 CD2 TRP A 525 9.609 25.277 −60.184 1.00 27.84 ATOM 3962 CE3 TRP A 525 10.230 24.842 −59.001 1.00 26.50 ATOM 3963 CZ3 TRP A 525 9.787 23.655 −58.411 1.00 27.55 ATOM 3964 CH2 TRP A 525 8.752 22.889 −58.998 1.00 27.90 ATOM 3965 CZ2 TRP A 525 8.144 23.279 −60.168 1.00 26.22 ATOM 3966 C TRP A 525 11.790 29.301 −59.452 1.00 29.66 ATOM 3967 O TRP A 525 12.921 28.804 −59.346 1.00 30.61 ATOM 3968 N SER A 526 11.570 30.613 −59.380 1.00 30.33 ATOM 3969 CA SER A 526 12.645 31.536 −59.004 1.00 31.13 ATOM 3970 CB SER A 526 12.213 32.993 −59.187 1.00 31.02 ATOM 3971 OG SER A 526 13.166 33.838 −58.562 1.00 33.69 ATOM 3972 C SER A 526 13.086 31.312 −57.560 1.00 31.29 ATOM 3973 O SER A 526 12.271 31.381 −56.627 1.00 31.21 ATOM 3974 N THR A 527 14.373 31.049 −57.367 1.00 31.34 ATOM 3975 CA THR A 527 14.880 30.794 −56.021 1.00 31.64 ATOM 3976 CB THR A 527 16.259 30.098 −56.024 1.00 31.79 ATOM 3977 OG1 THR A 527 17.217 30.931 −56.682 1.00 31.43 ATOM 3978 CG2 THR A 527 16.169 28.739 −56.724 1.00 32.27 ATOM 3979 C THR A 527 14.911 32.045 −55.152 1.00 31.99 ATOM 3980 O THR A 527 14.847 31.959 −53.922 1.00 32.36 ATOM 3981 N SER A 528 14.986 33.209 −55.787 1.00 31.79 ATOM 3982 CA SER A 528 14.928 34.463 −55.054 1.00 32.02 ATOM 3983 CB SER A 528 15.517 35.615 −55.885 1.00 32.70 ATOM 3984 OG SER A 528 14.712 35.882 −57.031 1.00 34.94 ATOM 3985 C SER A 528 13.497 34.784 −54.579 1.00 31.23 ATOM 3986 O SER A 528 13.330 35.435 −53.550 1.00 32.02 ATOM 3987 N ALA A 529 12.479 34.314 −55.306 1.00 29.33 ATOM 3988 CA ALA A 529 11.093 34.506 −54.893 1.00 27.60 ATOM 3989 CB ALA A 529 10.211 34.864 −56.086 1.00 27.34 ATOM 3990 C ALA A 529 10.482 33.328 −54.112 1.00 26.40 ATOM 3991 O ALA A 529 9.311 33.382 −53.754 1.00 26.54 ATOM 3992 N ALA A 530 11.268 32.286 −53.842 1.00 25.12 ATOM 3993 CA ALA A 530 10.777 31.114 −53.096 1.00 24.19 ATOM 3994 CB ALA A 530 11.855 30.063 −52.991 1.00 23.88 ATOM 3995 C ALA A 530 10.336 31.555 −51.706 1.00 23.55 ATOM 3996 O ALA A 530 10.848 32.540 −51.182 1.00 23.61 ATOM 3997 N VAL A 531 9.396 30.833 −51.110 1.00 22.18 ATOM 3998 CA VAL A 531 8.851 31.248 −49.821 1.00 22.62 ATOM 3999 CB VAL A 531 7.380 30.821 −49.677 1.00 22.81 ATOM 4000 CG1 VAL A 531 6.815 31.335 −48.346 1.00 25.06 ATOM 4001 CG2 VAL A 531 6.551 31.353 −50.886 1.00 25.38 ATOM 4002 C VAL A 531 9.659 30.646 −48.674 1.00 21.29 ATOM 4003 O VAL A 531 9.768 29.425 −48.564 1.00 20.72 ATOM 4004 N ALA A 532 10.215 31.493 −47.819 1.00 20.86 ATOM 4005 CA ALA A 532 11.008 30.999 −46.698 1.00 20.26 ATOM 4006 CB ALA A 532 11.850 32.128 −46.084 1.00 21.02 ATOM 4007 C ALA A 532 10.093 30.356 −45.646 1.00 20.51 ATOM 4008 O ALA A 532 9.019 30.884 −45.337 1.00 20.05 ATOM 4009 N LEU A 533 10.514 29.200 −45.129 1.00 19.00 ATOM 4010 CA LEU A 533 9.855 28.565 −43.999 1.00 18.65 ATOM 4011 CB LEU A 533 9.901 27.029 −44.148 1.00 18.14 ATOM 4012 CG LEU A 533 9.395 26.450 −45.483 1.00 19.25 ATOM 4013 CD1 LEU A 533 9.385 24.923 −45.427 1.00 21.28 ATOM 4014 CD2 LEU A 533 8.030 26.980 −45.894 1.00 18.58 ATOM 4015 C LEU A 533 10.541 29.014 −42.702 1.00 18.95 ATOM 4016 O LEU A 533 11.622 29.648 −42.744 1.00 18.94 ATOM 4017 N ASP A 534 9.905 28.715 −41.570 1.00 18.56 ATOM 4018 CA ASP A 534 10.381 29.096 −40.238 1.00 18.36 ATOM 4019 CB ASP A 534 9.220 29.634 −39.374 1.00 19.76 ATOM 4020 CG ASP A 534 8.757 30.992 −39.798 1.00 23.55 ATOM 4021 OD1 ASP A 534 7.548 31.264 −39.659 1.00 26.14 ATOM 4022 OD2 ASP A 534 9.600 31.774 −40.283 1.00 27.39 ATOM 4023 C ASP A 534 10.877 27.867 −39.504 1.00 17.68 ATOM 4024 O ASP A 534 10.310 26.780 −39.667 1.00 16.10 ATOM 4025 N ALA A 535 11.883 28.057 −38.654 1.00 17.05 ATOM 4026 CA ALA A 535 12.405 26.950 −37.835 1.00 17.76 ATOM 4027 CB ALA A 535 13.926 26.952 −37.832 1.00 17.96 ATOM 4028 C ALA A 535 11.872 27.027 −36.403 1.00 17.82 ATOM 4029 O ALA A 535 12.482 26.490 −35.474 1.00 18.36 ATOM 4030 N VAL A 536 10.745 27.706 −36.225 1.00 17.68 ATOM 4031 CA VAL A 536 10.138 27.861 −34.898 1.00 18.65 ATOM 4032 CB VAL A 536 8.824 28.719 −34.975 1.00 18.66 ATOM 4033 CG1 VAL A 536 7.805 28.123 −35.971 1.00 19.98 ATOM 4034 CG2 VAL A 536 8.208 28.962 −33.570 1.00 20.19 ATOM 4035 C VAL A 536 9.938 26.514 −34.155 1.00 18.51 ATOM 4036 O VAL A 536 10.124 26.437 −32.923 1.00 19.61 ATOM 4037 N ASN A 537 9.570 25.468 −34.883 1.00 18.59 ATOM 4038 CA ASN A 537 9.344 24.154 −34.261 1.00 19.07 ATOM 4039 CB ASN A 537 8.074 23.498 −34.816 1.00 19.28 ATOM 4040 CG ASN A 537 6.800 24.252 −34.448 1.00 21.02 ATOM 4041 OD1 ASN A 537 6.742 24.940 −33.435 1.00 24.12 ATOM 4042 ND2 ASN A 537 5.762 24.089 −35.265 1.00 20.99 ATOM 4043 C ASN A 537 10.518 23.182 −34.445 1.00 19.15 ATOM 4044 O ASN A 537 10.394 21.971 −34.196 1.00 18.60 ATOM 4045 N TYR A 538 11.653 23.699 −34.897 1.00 19.05 ATOM 4046 CA TYR A 538 12.767 22.830 −35.234 1.00 20.32 ATOM 4047 CB TYR A 538 13.816 23.618 −36.026 1.00 20.37 ATOM 4048 CG TYR A 538 14.916 22.747 −36.588 1.00 20.37 ATOM 4049 CD1 TYR A 538 14.822 22.238 −37.886 1.00 20.39 ATOM 4050 CE1 TYR A 538 15.853 21.436 −38.437 1.00 20.49 ATOM 4051 CZ TYR A 538 16.961 21.137 −37.670 1.00 20.65 ATOM 4052 OH TYR A 538 17.946 20.341 −38.218 1.00 21.53 ATOM 4053 CE2 TYR A 538 17.066 21.602 −36.361 1.00 22.05 ATOM 4054 CD2 TYR A 538 16.043 22.418 −35.825 1.00 21.95 ATOM 4055 C TYR A 538 13.436 22.209 −33.981 1.00 21.29 ATOM 4056 O TYR A 538 13.733 22.919 −33.036 1.00 21.89 ATOM 4057 N ALA A 539 13.695 20.902 −34.014 1.00 22.15 ATOM 4058 CA ALA A 539 14.646 20.258 −33.083 1.00 23.67 ATOM 4059 CB ALA A 539 13.909 19.536 −31.976 1.00 23.94 ATOM 4060 C ALA A 539 15.545 19.289 −33.849 1.00 24.35 ATOM 4061 O ALA A 539 15.117 18.698 −34.833 1.00 23.63 ATOM 4062 N ASP A 540 16.793 19.118 −33.405 1.00 25.69 ATOM 4063 CA ASP A 540 17.722 18.196 −34.099 1.00 27.42 ATOM 4064 CB ASP A 540 19.044 18.051 −33.339 1.00 28.62 ATOM 4065 CG ASP A 540 19.724 19.368 −33.140 1.00 33.80 ATOM 4066 OD1 ASP A 540 19.875 20.115 −34.147 1.00 36.83 ATOM 4067 OD2 ASP A 540 20.080 19.663 −31.970 1.00 40.32 ATOM 4068 C ASP A 540 17.150 16.818 −34.400 1.00 26.63 ATOM 4069 O ASP A 540 17.386 16.277 −35.485 1.00 27.28 ATOM 4070 N ASN A 541 16.403 16.247 −33.458 1.00 25.08 ATOM 4071 CA ASN A 541 15.827 14.922 −33.687 1.00 24.03 ATOM 4072 CB ASN A 541 15.988 14.032 −32.441 1.00 25.14 ATOM 4073 CG ASN A 541 15.337 14.623 −31.191 1.00 27.81 ATOM 4074 OD1 ASN A 541 15.366 14.001 −30.118 1.00 31.57 ATOM 4075 ND2 ASN A 541 14.771 15.824 −31.306 1.00 28.81 ATOM 4076 C ASN A 541 14.349 14.991 −34.118 1.00 22.46 ATOM 4077 O ASN A 541 13.660 13.979 −34.172 1.00 22.35 ATOM 4078 N HIS A 542 13.871 16.197 −34.403 1.00 19.85 ATOM 4079 CA HIS A 542 12.580 16.354 −35.083 1.00 18.22 ATOM 4080 CB HIS A 542 11.426 16.392 −34.062 1.00 16.89 ATOM 4081 CG HIS A 542 10.071 16.341 −34.699 1.00 17.32 ATOM 4082 ND1 HIS A 542 9.211 17.417 −34.711 1.00 16.28 ATOM 4083 CE1 HIS A 542 8.111 17.088 −35.371 1.00 14.64 ATOM 4084 NE2 HIS A 542 8.217 15.834 −35.765 1.00 15.41 ATOM 4085 CD2 HIS A 542 9.435 15.340 −35.358 1.00 15.14 ATOM 4086 C HIS A 542 12.662 17.650 −35.902 1.00 17.48 ATOM 4087 O HIS A 542 12.198 18.698 −35.446 1.00 17.79 ATOM 4088 N PRO A 543 13.324 17.584 −37.083 1.00 17.00 ATOM 4089 CA PRO A 543 13.797 18.752 −37.832 1.00 17.09 ATOM 4090 CB PRO A 543 14.948 18.164 −38.677 1.00 16.57 ATOM 4091 CG PRO A 543 14.472 16.759 −38.994 1.00 18.22 ATOM 4092 CD PRO A 543 13.676 16.321 −37.764 1.00 17.39 ATOM 4093 C PRO A 543 12.718 19.435 −38.691 1.00 16.46 ATOM 4094 O PRO A 543 12.811 19.497 −39.922 1.00 17.09 ATOM 4095 N LEU A 544 11.726 19.987 −38.009 1.00 15.36 ATOM 4096 CA LEU A 544 10.534 20.535 −38.636 1.00 15.10 ATOM 4097 CB LEU A 544 9.341 20.376 −37.672 1.00 15.29 ATOM 4098 CG LEU A 544 7.968 20.927 −38.134 1.00 16.53 ATOM 4099 CD1 LEU A 544 7.524 20.364 −39.494 1.00 15.92 ATOM 4100 CD2 LEU A 544 6.900 20.700 −37.062 1.00 14.59 ATOM 4101 C LEU A 544 10.694 22.018 −39.025 1.00 15.09 ATOM 4102 O LEU A 544 11.037 22.851 −38.197 1.00 15.34 ATOM 4103 N TRP A 545 10.456 22.298 −40.303 1.00 15.03 ATOM 4104 CA TRP A 545 10.327 23.637 −40.843 1.00 15.36 ATOM 4105 CB TRP A 545 11.288 23.790 −42.023 1.00 15.40 ATOM 4106 CG TRP A 545 12.758 23.921 −41.663 1.00 15.62 ATOM 4107 CD1 TRP A 545 13.653 22.903 −41.384 1.00 16.85 ATOM 4108 NE1 TRP A 545 14.906 23.437 −41.129 1.00 18.69 ATOM 4109 CE2 TRP A 545 14.837 24.803 −41.246 1.00 17.78 ATOM 4110 CD2 TRP A 545 13.498 25.140 −41.584 1.00 17.01 ATOM 4111 CE3 TRP A 545 13.163 26.488 −41.777 1.00 17.17 ATOM 4112 CZ3 TRP A 545 14.165 27.456 −41.637 1.00 18.29 ATOM 4113 CH2 TRP A 545 15.483 27.085 −41.295 1.00 17.22 ATOM 4114 CZ2 TRP A 545 15.835 25.767 −41.111 1.00 19.09 ATOM 4115 C TRP A 545 8.907 23.832 −41.359 1.00 15.14 ATOM 4116 O TRP A 545 8.327 22.933 −41.986 1.00 14.45 ATOM 4117 N ILE A 546 8.362 25.025 −41.149 1.00 15.19 ATOM 4118 CA ILE A 546 6.938 25.244 −41.428 1.00 16.51 ATOM 4119 CB ILE A 546 6.107 24.988 −40.130 1.00 17.39 ATOM 4120 CG1 ILE A 546 4.615 24.852 −40.420 1.00 20.44 ATOM 4121 CD1 ILE A 546 3.882 23.992 −39.392 1.00 23.59 ATOM 4122 CG2 ILE A 546 6.391 26.064 −39.050 1.00 17.70 ATOM 4123 C ILE A 546 6.674 26.635 −42.006 1.00 16.75 ATOM 4124 O ILE A 546 7.352 27.593 −41.647 1.00 15.81 ATOM 4125 N ALA A 547 5.716 26.743 −42.925 1.00 16.88 ATOM 4126 CA ALA A 547 5.197 28.057 −43.279 1.00 17.94 ATOM 4127 CB ALA A 547 6.222 28.893 −43.931 1.00 21.49 ATOM 4128 C ALA A 547 4.009 27.919 −44.167 1.00 18.29 ATOM 4129 O ALA A 547 3.727 26.828 −44.655 1.00 18.52 ATOM 4130 N THR A 548 3.316 29.031 −44.362 1.00 17.99 ATOM 4131 CA THR A 548 1.970 29.017 −44.919 1.00 18.72 ATOM 4132 CB THR A 548 0.929 29.419 −43.855 1.00 18.65 ATOM 4133 OG1 THR A 548 1.000 28.500 −42.751 1.00 19.46 ATOM 4134 CG2 THR A 548 −0.491 29.379 −44.438 1.00 18.79 ATOM 4135 C THR A 548 1.865 29.960 −46.104 1.00 19.60 ATOM 4136 O THR A 548 2.347 31.090 −46.040 1.00 19.83 ATOM 4137 N VAL A 549 1.227 29.485 −47.164 1.00 20.41 ATOM 4138 CA VAL A 549 1.048 30.280 −48.389 1.00 22.36 ATOM 4139 CB VAL A 549 1.944 29.722 −49.537 1.00 22.77 ATOM 4140 CG1 VAL A 549 1.717 30.491 −50.845 1.00 25.80 ATOM 4141 CG2 VAL A 549 3.429 29.781 −49.148 1.00 24.78 ATOM 4142 C VAL A 549 −0.399 30.119 −48.800 1.00 22.21 ATOM 4143 O VAL A 549 −0.943 29.018 −48.719 1.00 21.56 ATOM 4144 N ASN A 550 −1.028 31.211 −49.240 1.00 22.80 ATOM 4145 CA ASN A 550 −2.356 31.107 −49.831 1.00 23.95 ATOM 4146 CB ASN A 550 −3.114 32.411 −49.649 1.00 24.39 ATOM 4147 CG ASN A 550 −3.367 32.706 −48.201 1.00 27.42 ATOM 4148 OD1 ASN A 550 −3.811 31.838 −47.462 1.00 28.69 ATOM 4149 ND2 ASN A 550 −3.041 33.911 −47.771 1.00 31.89 ATOM 4150 C ASN A 550 −2.278 30.733 −51.294 1.00 23.98 ATOM 4151 O ASN A 550 −1.598 31.400 −52.065 1.00 24.73 ATOM 4152 N LEU A 551 −2.973 29.667 −51.662 1.00 24.24 ATOM 4153 CA LEU A 551 −3.016 29.180 −53.020 1.00 24.78 ATOM 4154 CB LEU A 551 −2.348 27.797 −53.135 1.00 25.00 ATOM 4155 CG LEU A 551 −0.858 27.721 −52.787 1.00 25.19 ATOM 4156 CD1 LEU A 551 −0.356 26.284 −52.803 1.00 27.45 ATOM 4157 CD2 LEU A 551 −0.018 28.613 −53.718 1.00 26.73 ATOM 4158 C LEU A 551 −4.471 29.104 −53.488 1.00 25.46 ATOM 4159 O LEU A 551 −5.393 29.018 −52.675 1.00 24.27 ATOM 4160 N GLU A 552 −4.661 29.148 −54.804 1.00 26.15 ATOM 4161 CA GLU A 552 −6.004 29.165 −55.366 1.00 28.20 ATOM 4162 CB GLU A 552 −5.955 29.639 −56.823 1.00 28.30 ATOM 4163 CG GLU A 552 −7.326 29.739 −57.494 1.00 32.28 ATOM 4164 CD GLU A 552 −7.250 30.281 −58.926 1.00 33.44 ATOM 4165 OE1 GLU A 552 −8.110 31.126 −59.274 1.00 41.80 ATOM 4166 OE2 GLU A 552 −6.340 29.873 −59.695 1.00 39.14 ATOM 4167 C GLU A 552 −6.610 27.768 −55.253 1.00 26.97 ATOM 4168 O GLU A 552 −5.979 26.783 −55.622 1.00 26.49 ATOM 4169 N ALA A 553 −7.822 27.684 −54.723 1.00 27.21 ATOM 4170 CA ALA A 553 −8.502 26.399 −54.603 1.00 27.89 ATOM 4171 CB ALA A 553 −9.876 26.574 −53.953 1.00 28.37 ATOM 4172 C ALA A 553 −8.637 25.773 −55.979 1.00 28.57 ATOM 4173 O ALA A 553 −8.900 26.477 −56.952 1.00 28.83 ATOM 4174 N GLY A 554 −8.438 24.465 −56.064 1.00 28.44 ATOM 4175 CA GLY A 554 −8.556 23.753 −57.330 1.00 29.66 ATOM 4176 C GLY A 554 −7.274 23.693 −58.145 1.00 30.04 ATOM 4177 O GLY A 554 −7.122 22.814 −59.000 1.00 30.33 ATOM 4178 N ASP A 555 −6.347 24.606 −57.869 1.00 30.23 ATOM 4179 CA ASP A 555 −5.098 24.716 −58.630 1.00 30.61 ATOM 4180 CB ASP A 555 −4.313 25.939 −58.161 1.00 30.85 ATOM 4181 CG ASP A 555 −3.382 26.503 −59.236 1.00 34.49 ATOM 4182 OD1 ASP A 555 −3.441 26.053 −60.407 1.00 37.19 ATOM 4183 OD2 ASP A 555 −2.572 27.408 −58.901 1.00 36.59 ATOM 4184 C ASP A 555 −4.238 23.467 −58.486 1.00 30.14 ATOM 4185 O ASP A 555 −4.156 22.882 −57.419 1.00 30.07 ATOM 4186 N VAL A 556 −3.602 23.046 −59.572 1.00 29.55 ATOM 4187 CA VAL A 556 −2.628 21.963 −59.492 1.00 28.74 ATOM 4188 CB VAL A 556 −2.732 20.987 −60.680 1.00 29.35 ATOM 4189 CG1 VAL A 556 −1.666 19.877 −60.569 1.00 28.99 ATOM 4190 CG2 VAL A 556 −4.125 20.365 −60.720 1.00 30.44 ATOM 4191 C VAL A 556 −1.261 22.623 −59.448 1.00 28.04 ATOM 4192 O VAL A 556 −0.869 23.336 −60.384 1.00 27.25 ATOM 4193 N VAL A 557 −0.544 22.389 −58.352 1.00 26.81 ATOM 4194 CA VAL A 557 0.739 23.040 −58.100 1.00 26.14 ATOM 4195 CB VAL A 557 0.690 23.859 −56.759 1.00 26.71 ATOM 4196 CG1 VAL A 557 2.073 24.140 −56.219 1.00 27.82 ATOM 4197 CG2 VAL A 557 −0.088 25.175 −56.952 1.00 27.34 ATOM 4198 C VAL A 557 1.856 21.999 −58.092 1.00 25.64 ATOM 4199 O VAL A 557 1.646 20.845 −57.693 1.00 25.24 ATOM 4200 N GLU A 558 3.035 22.409 −58.553 1.00 24.16 ATOM 4201 CA GLU A 558 4.223 21.579 −58.516 1.00 24.38 ATOM 4202 CB GLU A 558 4.737 21.296 −59.933 1.00 24.86 ATOM 4203 CG GLU A 558 4.064 20.108 −60.606 1.00 26.34 ATOM 4204 CD GLU A 558 4.670 19.790 −61.962 1.00 27.68 ATOM 4205 OE1 GLU A 558 5.917 19.684 −62.065 1.00 30.56 ATOM 4206 OE2 GLU A 558 3.883 19.638 −62.915 1.00 32.45 ATOM 4207 C GLU A 558 5.262 22.337 −57.730 1.00 22.54 ATOM 4208 O GLU A 558 5.389 23.550 −57.883 1.00 22.93 ATOM 4209 N TYR A 559 5.992 21.640 −56.867 1.00 21.45 ATOM 4210 CA TYR A 559 6.927 22.346 −55.995 1.00 19.96 ATOM 4211 CB TYR A 559 6.188 22.972 −54.784 1.00 19.42 ATOM 4212 CG TYR A 559 5.624 21.952 −53.796 1.00 18.65 ATOM 4213 CD1 TYR A 559 6.383 21.524 −52.703 1.00 18.64 ATOM 4214 CE1 TYR A 559 5.887 20.595 −51.794 1.00 19.09 ATOM 4215 CZ TYR A 559 4.614 20.090 −51.955 1.00 18.58 ATOM 4216 OH TYR A 559 4.135 19.160 −51.056 1.00 20.55 ATOM 4217 CE2 TYR A 559 3.819 20.493 −53.024 1.00 18.22 ATOM 4218 CD2 TYR A 559 4.335 21.438 −53.946 1.00 18.82 ATOM 4219 C TYR A 559 8.066 21.445 −55.541 1.00 20.13 ATOM 4220 O TYR A 559 8.008 20.215 −55.679 1.00 20.26 ATOM 4221 N LYS A 560 9.098 22.079 −54.995 1.00 19.51 ATOM 4222 CA LYS A 560 10.208 21.379 −54.349 1.00 19.72 ATOM 4223 CB LYS A 560 11.410 21.175 −55.282 1.00 19.66 ATOM 4224 CG LYS A 560 11.390 19.870 −56.058 1.00 22.20 ATOM 4225 CD LYS A 560 12.767 19.633 −56.714 1.00 24.46 ATOM 4226 CE LYS A 560 12.781 18.341 −57.531 1.00 26.96 ATOM 4227 NZ LYS A 560 14.189 18.050 −57.980 1.00 26.97 ATOM 4228 C LYS A 560 10.680 22.257 −53.234 1.00 18.68 ATOM 4229 O LYS A 560 10.583 23.484 −53.318 1.00 19.68 ATOM 4230 N TYR A 561 11.240 21.640 −52.206 1.00 17.87 ATOM 4231 CA TYR A 561 11.927 22.420 −51.187 1.00 17.82 ATOM 4232 CB TYR A 561 11.921 21.690 −49.840 1.00 17.42 ATOM 4233 CG TYR A 561 10.518 21.449 −49.346 1.00 16.12 ATOM 4234 CD1 TYR A 561 9.831 20.276 −49.661 1.00 15.94 ATOM 4235 CE1 TYR A 561 8.511 20.062 −49.199 1.00 15.79 ATOM 4236 CZ TYR A 561 7.897 21.050 −48.456 1.00 15.89 ATOM 4237 OH TYR A 561 6.614 20.889 −47.981 1.00 17.17 ATOM 4238 CE2 TYR A 561 8.557 22.224 −48.164 1.00 16.19 ATOM 4239 CD2 TYR A 561 9.856 22.430 −48.625 1.00 17.57 ATOM 4240 C TYR A 561 13.360 22.650 −51.607 1.00 18.63 ATOM 4241 O TYR A 561 13.963 21.786 −52.265 1.00 18.40 ATOM 4242 N ILE A 562 13.904 23.792 −51.201 1.00 18.56 ATOM 4243 CA ILE A 562 15.322 24.085 −51.434 1.00 20.18 ATOM 4244 CB ILE A 562 15.524 25.247 −52.419 1.00 19.65 ATOM 4245 CG1 ILE A 562 14.837 26.520 −51.896 1.00 21.64 ATOM 4246 CD1 ILE A 562 15.074 27.789 −52.741 1.00 21.24 ATOM 4247 CG2 ILE A 562 15.017 24.829 −53.797 1.00 20.44 ATOM 4248 C ILE A 562 15.971 24.446 −50.128 1.00 20.56 ATOM 4249 O ILE A 562 15.316 24.956 −49.229 1.00 19.84 ATOM 4250 N ASN A 563 17.254 24.134 −50.029 1.00 21.41 ATOM 4251 CA ASN A 563 18.076 24.467 −48.886 1.00 22.99 ATOM 4252 CB ASN A 563 18.833 23.209 −48.435 1.00 22.69 ATOM 4253 CG ASN A 563 19.629 23.433 −47.156 1.00 25.48 ATOM 4254 OD1 ASN A 563 20.203 24.492 −46.965 1.00 28.81 ATOM 4255 ND2 ASN A 563 19.669 22.436 −46.285 1.00 25.82 ATOM 4256 C ASN A 563 19.039 25.561 −49.372 1.00 24.66 ATOM 4257 O ASN A 563 19.794 25.326 −50.323 1.00 24.16 ATOM 4258 N VAL A 564 18.977 26.749 −48.780 1.00 26.20 ATOM 4259 CA VAL A 564 19.877 27.837 −49.206 1.00 28.74 ATOM 4260 CB VAL A 564 19.156 29.091 −49.832 1.00 28.91 ATOM 4261 CG1 VAL A 564 19.461 30.408 −49.087 1.00 31.10 ATOM 4262 CG2 VAL A 564 17.655 28.836 −50.079 1.00 28.92 ATOM 4263 C VAL A 564 20.886 28.181 −48.122 1.00 29.56 ATOM 4264 O VAL A 564 20.538 28.320 −46.954 1.00 29.10 ATOM 4265 N GLY A 565 22.150 28.266 −48.527 1.00 32.02 ATOM 4266 CA GLY A 565 23.252 28.423 −47.577 1.00 34.92 ATOM 4267 C GLY A 565 23.539 29.876 −47.248 1.00 37.47 ATOM 4268 O GLY A 565 22.969 30.788 −47.871 1.00 37.66 ATOM 4269 N GLN A 566 24.419 30.098 −46.267 1.00 39.85 ATOM 4270 CA GLN A 566 24.897 31.456 −45.926 1.00 42.75 ATOM 4271 CB GLN A 566 26.054 31.398 −44.918 1.00 42.83 ATOM 4272 CG GLN A 566 25.727 30.761 −43.565 1.00 44.99 ATOM 4273 CD GLN A 566 26.940 30.689 −42.626 1.00 44.88 ATOM 4274 OE1 GLN A 566 27.972 30.089 −42.958 1.00 47.67 ATOM 4275 NE2 GLN A 566 26.810 31.293 −41.441 1.00 47.62 ATOM 4276 C GLN A 566 25.373 32.195 −47.181 1.00 43.30 ATOM 4277 O GLN A 566 25.052 33.365 −47.389 1.00 44.01 ATOM 4278 N ASP A 567 26.118 31.479 −48.023 1.00 44.30 ATOM 4279 CA ASP A 567 26.739 32.029 −49.236 1.00 44.62 ATOM 4280 CB ASP A 567 27.916 31.139 −49.650 1.00 45.13 ATOM 4281 CG ASP A 567 27.492 29.702 −49.966 1.00 47.62 ATOM 4282 OD1 ASP A 567 26.421 29.255 −49.485 1.00 48.73 ATOM 4283 OD2 ASP A 567 28.245 29.010 −50.693 1.00 50.47 ATOM 4284 C ASP A 567 25.776 32.197 −50.421 1.00 44.04 ATOM 4285 O ASP A 567 26.196 32.575 −51.522 1.00 44.36 ATOM 4286 N GLY A 568 24.497 31.899 −50.205 1.00 42.85 ATOM 4287 CA GLY A 568 23.488 32.045 −51.247 1.00 41.38 ATOM 4288 C GLY A 568 23.359 30.851 −52.177 1.00 40.41 ATOM 4289 O GLY A 568 22.496 30.854 −53.054 1.00 40.62 ATOM 4290 N SER A 569 24.195 29.827 −51.990 1.00 39.02 ATOM 4291 CA SER A 569 24.137 28.623 −52.827 1.00 37.72 ATOM 4292 CB SER A 569 25.365 27.746 −52.600 1.00 38.07 ATOM 4293 OG SER A 569 25.454 27.359 −51.238 1.00 39.18 ATOM 4294 C SER A 569 22.868 27.819 −52.540 1.00 36.72 ATOM 4295 O SER A 569 22.474 27.672 −51.382 1.00 36.47 ATOM 4296 N VAL A 570 22.222 27.313 −53.583 1.00 35.25 ATOM 4297 CA VAL A 570 20.988 26.558 −53.365 1.00 34.26 ATOM 4298 CB VAL A 570 19.709 27.243 −53.987 1.00 34.42 ATOM 4299 CG1 VAL A 570 18.992 26.358 −55.020 1.00 35.11 ATOM 4300 CG2 VAL A 570 20.010 28.651 −54.506 1.00 35.12 ATOM 4301 C VAL A 570 21.113 25.080 −53.718 1.00 33.29 ATOM 4302 O VAL A 570 21.735 24.694 −54.714 1.00 32.88 ATOM 4303 N THR A 571 20.515 24.261 −52.864 1.00 31.66 ATOM 4304 CA THR A 571 20.480 22.825 −53.021 1.00 30.87 ATOM 4305 CB THR A 571 21.016 22.146 −51.752 1.00 30.96 ATOM 4306 OG1 THR A 571 22.311 22.686 −51.442 1.00 33.18 ATOM 4307 CG2 THR A 571 21.117 20.637 −51.935 1.00 30.95 ATOM 4308 C THR A 571 19.018 22.473 −53.210 1.00 29.72 ATOM 4309 O THR A 571 18.186 22.832 −52.373 1.00 28.84 ATOM 4310 N TRP A 572 18.697 21.846 −54.337 1.00 29.01 ATOM 4311 CA TRP A 572 17.331 21.388 −54.589 1.00 28.49 ATOM 4312 CB TRP A 572 17.004 21.367 −56.086 1.00 28.99 ATOM 4313 CG TRP A 572 16.950 22.690 −56.739 1.00 29.65 ATOM 4314 CD1 TRP A 572 18.014 23.419 −57.217 1.00 30.67 ATOM 4315 NE1 TRP A 572 17.564 24.603 −57.769 1.00 31.84 ATOM 4316 CE2 TRP A 572 16.196 24.655 −57.668 1.00 30.45 ATOM 4317 CD2 TRP A 572 15.770 23.464 −57.028 1.00 30.30 ATOM 4318 CE3 TRP A 572 14.398 23.274 −56.791 1.00 29.43 ATOM 4319 CZ3 TRP A 572 13.502 24.266 −57.205 1.00 30.24 ATOM 4320 CH2 TRP A 572 13.959 25.437 −57.846 1.00 30.31 ATOM 4321 CZ2 TRP A 572 15.298 25.649 −58.083 1.00 29.71 ATOM 4322 C TRP A 572 17.205 19.991 −54.031 1.00 28.21 ATOM 4323 O TRP A 572 18.168 19.212 −54.060 1.00 27.50 ATOM 4324 N GLU A 573 16.033 19.647 −53.499 1.00 27.69 ATOM 4325 CA GLU A 573 15.819 18.251 −53.123 1.00 27.17 ATOM 4326 CB GLU A 573 14.586 18.074 −52.222 1.00 27.18 ATOM 4327 CG GLU A 573 13.287 18.406 −52.901 1.00 26.04 ATOM 4328 CD GLU A 573 12.059 18.111 −52.028 1.00 26.20 ATOM 4329 OE1 GLU A 573 12.112 17.224 −51.141 1.00 25.84 ATOM 4330 OE2 GLU A 573 11.032 18.764 −52.264 1.00 22.24 ATOM 4331 C GLU A 573 15.725 17.419 −54.405 1.00 27.91 ATOM 4332 O GLU A 573 15.498 17.957 −55.497 1.00 26.94 ATOM 4333 N SER A 574 15.907 16.108 −54.267 1.00 28.48 ATOM 4334 CA SER A 574 15.880 15.201 −55.410 1.00 29.59 ATOM 4335 CB SER A 574 16.296 13.805 −54.975 1.00 29.73 ATOM 4336 OG SER A 574 17.609 13.875 −54.449 1.00 32.74 ATOM 4337 C SER A 574 14.526 15.134 −56.095 1.00 29.70 ATOM 4338 O SER A 574 13.500 15.482 −55.513 1.00 29.12 ATOM 4339 N ASP A 575 14.544 14.669 −57.339 1.00 29.54 ATOM 4340 CA ASP A 575 13.337 14.435 −58.109 1.00 29.98 ATOM 4341 CB ASP A 575 13.705 14.000 −59.534 1.00 30.69 ATOM 4342 CG ASP A 575 14.324 15.125 −60.331 1.00 33.96 ATOM 4343 OD1 ASP A 575 14.056 16.299 −59.997 1.00 36.25 ATOM 4344 OD2 ASP A 575 15.083 14.846 −61.290 1.00 37.94 ATOM 4345 C ASP A 575 12.519 13.358 −57.428 1.00 28.93 ATOM 4346 O ASP A 575 13.050 12.633 −56.600 1.00 28.34 ATOM 4347 N PRO A 576 11.217 13.267 −57.760 1.00 28.58 ATOM 4348 CA PRO A 576 10.469 14.173 −58.650 1.00 27.92 ATOM 4349 CB PRO A 576 9.319 13.294 −59.131 1.00 28.52 ATOM 4350 CG PRO A 576 9.053 12.378 −57.954 1.00 28.29 ATOM 4351 CD PRO A 576 10.377 12.159 −57.267 1.00 28.76 ATOM 4352 C PRO A 576 9.894 15.397 −57.938 1.00 27.25 ATOM 4353 O PRO A 576 9.887 15.452 −56.703 1.00 28.13 ATOM 4354 N ASN A 577 9.394 16.360 −58.707 1.00 25.62 ATOM 4355 CA ASN A 577 8.612 17.449 −58.129 1.00 24.83 ATOM 4356 CB ASN A 577 8.013 18.336 −59.224 1.00 24.90 ATOM 4357 CG ASN A 577 9.055 19.184 −59.913 1.00 25.61 ATOM 4358 OD1 ASN A 577 10.176 19.321 −59.423 1.00 25.83 ATOM 4359 ND2 ASN A 577 8.693 19.756 −61.060 1.00 25.07 ATOM 4360 C ASN A 577 7.466 16.868 −57.322 1.00 24.22 ATOM 4361 O ASN A 577 6.949 15.798 −57.672 1.00 23.69 ATOM 4362 N HIS A 578 7.057 17.562 −56.259 1.00 23.20 ATOM 4363 CA HIS A 578 5.830 17.179 −55.570 1.00 22.96 ATOM 4364 CB HIS A 578 5.734 17.844 −54.200 1.00 22.09 ATOM 4365 CG HIS A 578 6.874 17.538 −53.285 1.00 21.80 ATOM 4366 ND1 HIS A 578 6.809 16.558 −52.318 1.00 21.62 ATOM 4367 CE1 HIS A 578 7.948 16.530 −51.645 1.00 21.36 ATOM 4368 NE2 HIS A 578 8.743 17.465 −52.133 1.00 20.16 ATOM 4369 CD2 HIS A 578 8.096 18.109 −53.160 1.00 19.78 ATOM 4370 C HIS A 578 4.697 17.707 −56.429 1.00 23.58 ATOM 4371 O HIS A 578 4.814 18.794 −56.976 1.00 23.64 ATOM 4372 N THR A 579 3.603 16.955 −56.534 1.00 23.98 ATOM 4373 CA THR A 579 2.426 17.448 −57.254 1.00 25.34 ATOM 4374 CB THR A 579 2.092 16.568 −58.477 1.00 26.08 ATOM 4375 OG1 THR A 579 3.162 16.672 −59.429 1.00 29.14 ATOM 4376 CG2 THR A 579 0.749 16.979 −59.126 1.00 26.14 ATOM 4377 C THR A 579 1.259 17.480 −56.291 1.00 25.05 ATOM 4378 O THR A 579 0.977 16.487 −55.629 1.00 25.73 ATOM 4379 N TYR A 580 0.591 18.619 −56.213 1.00 25.23 ATOM 4380 CA TYR A 580 −0.450 18.802 −55.211 1.00 25.68 ATOM 4381 CB TYR A 580 0.098 19.556 −53.976 1.00 25.88 ATOM 4382 CG TYR A 580 −0.931 19.763 −52.866 1.00 26.21 ATOM 4383 CD1 TYR A 580 −1.284 21.048 −52.429 1.00 26.22 ATOM 4384 CE1 TYR A 580 −2.256 21.233 −51.399 1.00 27.53 ATOM 4385 CZ TYR A 580 −2.860 20.111 −50.841 1.00 27.08 ATOM 4386 OH TYR A 580 −3.806 20.207 −49.844 1.00 27.88 ATOM 4387 CE2 TYR A 580 −2.510 18.841 −51.264 1.00 26.97 ATOM 4388 CD2 TYR A 580 −1.562 18.671 −52.276 1.00 26.29 ATOM 4389 C TYR A 580 −1.634 19.523 −55.828 1.00 25.65 ATOM 4390 O TYR A 580 −1.490 20.596 −56.403 1.00 25.29 ATOM 4391 N THR A 581 −2.813 18.915 −55.732 1.00 25.95 ATOM 4392 CA THR A 581 −4.015 19.629 −56.117 1.00 25.78 ATOM 4393 CB THR A 581 −5.016 18.700 −56.806 1.00 26.75 ATOM 4394 OG1 THR A 581 −4.332 18.000 −57.855 1.00 26.57 ATOM 4395 CG2 THR A 581 −6.189 19.498 −57.397 1.00 27.62 ATOM 4396 C THR A 581 −4.627 20.285 −54.874 1.00 25.36 ATOM 4397 O THR A 581 −5.024 19.595 −53.935 1.00 25.22 ATOM 4398 N VAL A 582 −4.685 21.615 −54.880 1.00 24.54 ATOM 4399 CA VAL A 582 −5.255 22.382 −53.777 1.00 24.15 ATOM 4400 CB VAL A 582 −5.006 23.915 −53.953 1.00 24.21 ATOM 4401 CG1 VAL A 582 −5.472 24.700 −52.744 1.00 23.87 ATOM 4402 CG2 VAL A 582 −3.514 24.218 −54.219 1.00 25.33 ATOM 4403 C VAL A 582 −6.759 22.063 −53.706 1.00 24.32 ATOM 4404 O VAL A 582 −7.478 22.204 −54.700 1.00 23.26 ATOM 4405 N PRO A 583 −7.236 21.587 −52.546 1.00 24.10 ATOM 4406 CA PRO A 583 −8.665 21.230 −52.476 1.00 24.34 ATOM 4407 CB PRO A 583 −8.865 20.763 −51.022 1.00 24.33 ATOM 4408 CG PRO A 583 −7.516 20.538 −50.468 1.00 25.16 ATOM 4409 CD PRO A 583 −6.508 21.310 −51.294 1.00 24.72 ATOM 4410 C PRO A 583 −9.597 22.404 −52.768 1.00 24.50 ATOM 4411 O PRO A 583 −9.262 23.558 −52.487 1.00 23.93 ATOM 4412 N ALA A 584 −10.756 22.104 −53.350 1.00 24.61 ATOM 4413 CA ALA A 584 −11.817 23.084 −53.477 1.00 24.77 ATOM 4414 CB ALA A 584 −12.065 23.439 −54.943 1.00 25.29 ATOM 4415 C ALA A 584 −13.036 22.434 −52.847 1.00 24.94 ATOM 4416 O ALA A 584 −13.922 21.932 −53.537 1.00 25.03 ATOM 4417 N VAL A 585 −13.052 22.406 −51.517 1.00 24.24 ATOM 4418 CA VAL A 585 −14.075 21.673 −50.776 1.00 23.75 ATOM 4419 CB VAL A 585 −13.465 20.452 −50.029 1.00 24.50 ATOM 4420 CG1 VAL A 585 −14.515 19.770 −49.151 1.00 24.48 ATOM 4421 CG2 VAL A 585 −12.863 19.447 −51.026 1.00 25.32 ATOM 4422 C VAL A 585 −14.707 22.639 −49.781 1.00 23.20 ATOM 4423 O VAL A 585 −13.999 23.347 −49.065 1.00 22.13 ATOM 4424 N ALA A 586 −16.044 22.679 −49.739 1.00 22.43 ATOM 4425 CA ALA A 586 −16.749 23.546 −48.804 1.00 21.79 ATOM 4426 CB ALA A 586 −18.240 23.212 −48.820 1.00 22.19 ATOM 4427 C ALA A 586 −16.160 23.324 −47.389 1.00 21.57 ATOM 4428 O ALA A 586 −15.954 22.180 −46.990 1.00 20.89 ATOM 4429 N CYS A 587 −15.872 24.414 −46.679 1.00 21.59 ATOM 4430 CA CYS A 587 −15.388 24.379 −45.268 1.00 21.68 ATOM 4431 CB CYS A 587 −16.131 23.323 −44.441 1.00 22.08 ATOM 4432 SG CYS A 587 −17.952 23.374 −44.507 1.00 23.60 ATOM 4433 C CYS A 587 −13.886 24.129 −45.094 1.00 21.27 ATOM 4434 O CYS A 587 −13.386 24.225 −43.980 1.00 21.08 ATOM 4435 N VAL A 588 −13.178 23.780 −46.170 1.00 20.53 ATOM 4436 CA VAL A 588 −11.742 23.499 −46.085 1.00 20.52 ATOM 4437 CB VAL A 588 −11.351 22.268 −46.958 1.00 20.47 ATOM 4438 CG1 VAL A 588 −9.846 21.959 −46.844 1.00 20.87 ATOM 4439 CG2 VAL A 588 −12.163 21.042 −46.549 1.00 20.51 ATOM 4440 C VAL A 588 −10.949 24.731 −46.504 1.00 20.59 ATOM 4441 O VAL A 588 −10.699 24.950 −47.705 1.00 21.88 ATOM 4442 N THR A 589 −10.533 25.522 −45.528 1.00 19.56 ATOM 4443 CA THR A 589 −9.903 26.807 −45.795 1.00 19.48 ATOM 4444 CB THR A 589 −10.595 27.914 −44.988 1.00 20.13 ATOM 4445 OG1 THR A 589 −10.527 27.565 −43.592 1.00 21.49 ATOM 4446 CG2 THR A 589 −12.085 28.018 −45.410 1.00 20.03 ATOM 4447 C THR A 589 −8.424 26.819 −45.427 1.00 19.42 ATOM 4448 O THR A 589 −7.694 27.767 −45.743 1.00 18.66 ATOM 4449 N GLN A 590 −7.995 25.772 −44.734 1.00 19.62 ATOM 4450 CA GLN A 590 −6.606 25.629 −44.317 1.00 20.20 ATOM 4451 CB GLN A 590 −6.359 26.261 −42.939 1.00 21.06 ATOM 4452 CG GLN A 590 −4.950 25.956 −42.410 1.00 27.00 ATOM 4453 CD GLN A 590 −4.184 27.189 −41.989 1.00 33.74 ATOM 4454 OE1 GLN A 590 −4.771 28.196 −41.611 1.00 37.22 ATOM 4455 NE2 GLN A 590 −2.855 27.118 −42.066 1.00 36.77 ATOM 4456 C GLN A 590 −6.247 24.159 −44.295 1.00 19.00 ATOM 4457 O GLN A 590 −7.004 23.335 −43.771 1.00 18.70 ATOM 4458 N VAL A 591 −5.113 23.811 −44.904 1.00 17.70 ATOM 4459 CA VAL A 591 −4.682 22.404 −44.940 1.00 17.15 ATOM 4460 CB VAL A 591 −4.843 21.750 −46.330 1.00 17.82 ATOM 4461 CG1 VAL A 591 −6.316 21.701 −46.744 1.00 18.11 ATOM 4462 CG2 VAL A 591 −3.970 22.470 −47.390 1.00 17.60 ATOM 4463 C VAL A 591 −3.213 22.360 −44.551 1.00 17.42 ATOM 4464 O VAL A 591 −2.531 23.377 −44.638 1.00 17.32 ATOM 4465 N VAL A 592 −2.731 21.206 −44.090 1.00 17.26 ATOM 4466 CA VAL A 592 −1.291 21.092 −43.887 1.00 17.03 ATOM 4467 CB VAL A 592 −0.762 21.198 −42.365 1.00 18.70 ATOM 4468 CG1 VAL A 592 0.335 20.217 −41.930 1.00 18.75 ATOM 4469 CG2 VAL A 592 −1.810 21.731 −41.315 1.00 15.36 ATOM 4470 C VAL A 592 −0.736 19.951 −44.730 1.00 16.99 ATOM 4471 O VAL A 592 −1.318 18.862 −44.828 1.00 16.23 ATOM 4472 N LYS A 593 0.357 20.253 −45.403 1.00 15.38 ATOM 4473 CA LYS A 593 0.953 19.302 −46.293 1.00 16.27 ATOM 4474 CB LYS A 593 1.301 20.010 −47.616 1.00 16.69 ATOM 4475 CG LYS A 593 1.835 19.096 −48.694 1.00 20.55 ATOM 4476 CD LYS A 593 0.791 18.101 −49.203 1.00 24.73 ATOM 4477 CE LYS A 593 1.330 17.311 −50.409 1.00 27.26 ATOM 4478 NZ LYS A 593 2.395 16.299 −50.074 1.00 28.37 ATOM 4479 C LYS A 593 2.209 18.783 −45.588 1.00 16.01 ATOM 4480 O LYS A 593 3.175 19.525 −45.427 1.00 15.12 ATOM 4481 N GLU A 594 2.195 17.519 −45.175 1.00 15.82 ATOM 4482 CA GLU A 594 3.308 16.969 −44.407 1.00 16.23 ATOM 4483 CB GLU A 594 2.798 16.017 −43.317 1.00 16.26 ATOM 4484 CG GLU A 594 1.866 16.732 −42.299 1.00 16.62 ATOM 4485 CD GLU A 594 1.727 15.949 −40.991 1.00 18.94 ATOM 4486 OE1 GLU A 594 1.267 14.778 −41.024 1.00 21.31 ATOM 4487 OE2 GLU A 594 2.107 16.507 −39.940 1.00 16.43 ATOM 4488 C GLU A 594 4.286 16.245 −45.323 1.00 17.34 ATOM 4489 O GLU A 594 3.973 15.177 −45.852 1.00 17.78 ATOM 4490 N ASP A 595 5.463 16.833 −45.487 1.00 17.05 ATOM 4491 CA ASP A 595 6.481 16.326 −46.405 1.00 17.21 ATOM 4492 CB ASP A 595 6.823 17.379 −47.475 1.00 16.63 ATOM 4493 CG ASP A 595 5.678 17.619 −48.455 1.00 17.91 ATOM 4494 OD1 ASP A 595 5.023 16.631 −48.857 1.00 20.73 ATOM 4495 OD2 ASP A 595 5.434 18.795 −48.844 1.00 18.08 ATOM 4496 C ASP A 595 7.734 15.955 −45.631 1.00 17.47 ATOM 4497 O ASP A 595 7.915 16.375 −44.492 1.00 16.44 ATOM 4498 N THR A 596 8.598 15.162 −46.277 1.00 18.11 ATOM 4499 CA THR A 596 9.917 14.835 −45.747 1.00 18.85 ATOM 4500 CB THR A 596 9.991 13.390 −45.188 1.00 19.58 ATOM 4501 OG1 THR A 596 9.057 13.248 −44.116 1.00 20.97 ATOM 4502 CG2 THR A 596 11.385 13.124 −44.598 1.00 20.94 ATOM 4503 C THR A 596 10.895 14.978 −46.914 1.00 19.34 ATOM 4504 O THR A 596 10.588 14.531 −48.024 1.00 19.05 ATOM 4505 N TRP A 597 12.050 15.581 −46.631 1.00 20.24 ATOM 4506 CA TRP A 597 13.074 15.921 −47.633 1.00 21.94 ATOM 4507 CB TRP A 597 14.325 16.453 −46.940 1.00 22.34 ATOM 4508 CG TRP A 597 15.445 16.854 −47.882 1.00 23.75 ATOM 4509 CD1 TRP A 597 16.509 16.079 −48.275 1.00 25.08 ATOM 4510 NE1 TRP A 597 17.327 16.801 −49.138 1.00 24.85 ATOM 4511 CE2 TRP A 597 16.802 18.059 −49.300 1.00 25.25 ATOM 4512 CD2 TRP A 597 15.611 18.128 −48.527 1.00 24.09 ATOM 4513 CE3 TRP A 597 14.875 19.325 −48.519 1.00 24.91 ATOM 4514 CZ3 TRP A 597 15.334 20.401 −49.262 1.00 23.38 ATOM 4515 CH2 TRP A 597 16.520 20.299 −50.028 1.00 25.14 ATOM 4516 CZ2 TRP A 597 17.265 19.137 −50.053 1.00 22.49 ATOM 4517 C TRP A 597 13.424 14.708 −48.473 1.00 23.42 ATOM 4518 O TRP A 597 13.675 13.635 −47.939 1.00 22.37 ATOM 4519 N GLN A 598 13.409 14.904 −49.788 1.00 25.26 ATOM 4520 CA GLN A 598 13.698 13.850 −50.755 1.00 27.05 ATOM 4521 CB GLN A 598 12.936 14.124 −52.052 1.00 26.51 ATOM 4522 CG GLN A 598 11.418 13.948 −51.895 1.00 26.10 ATOM 4523 CD GLN A 598 10.642 14.209 −53.156 1.00 26.76 ATOM 4524 OE1 GLN A 598 11.194 14.620 −54.175 1.00 27.68 ATOM 4525 NE2 GLN A 598 9.340 13.990 −53.095 1.00 25.96 ATOM 4526 C GLN A 598 15.204 13.787 −50.977 1.00 29.21 ATOM 4527 O GLN A 598 15.794 14.694 −51.574 1.00 28.61 ATOM 4528 N SER A 599 15.818 12.722 −50.453 1.00 32.41 ATOM 4529 CA SER A 599 17.273 12.530 −50.498 1.00 35.70 ATOM 4530 CB SER A 599 17.747 11.698 −49.302 1.00 35.61 ATOM 4531 OG SER A 599 17.374 12.296 −48.072 1.00 39.62 ATOM 4532 C SER A 599 17.703 11.831 −51.785 1.00 36.66 ATOM 4533 O SER A 599 16.916 11.145 −52.433 1.00 37.44 ATOM 4534 OXT SER A 599 18.863 11.922 −52.194 1.00 38.18 ATOM 4535 C1 MAN A 601 −3.602 −3.018 −46.412 1.00 102.64 ATOM 4536 C2 MAN A 601 −4.584 −2.109 −47.156 1.00 102.73 ATOM 4537 O2 MAN A 601 −3.951 −1.548 −48.288 1.00 102.91 ATOM 4538 C3 MAN A 601 −5.867 −2.845 −47.570 1.00 102.38 ATOM 4539 O3 MAN A 601 −6.544 −2.112 −48.566 1.00 102.32 ATOM 4540 C4 MAN A 601 −5.640 −4.269 −48.082 1.00 102.18 ATOM 4541 O4 MAN A 601 −6.860 −4.967 −47.984 1.00 101.76 ATOM 4542 C5 MAN A 601 −4.561 −5.018 −47.298 1.00 102.40 ATOM 4543 C6 MAN A 601 −4.172 −6.307 −48.010 1.00 102.48 ATOM 4544 O6 MAN A 601 −3.156 −6.957 −47.280 1.00 102.80 ATOM 4545 O5 MAN A 601 −3.400 −4.222 −47.131 1.00 102.71 ATOM 4546 C1 MAN A 602 −29.428 −4.974 −42.477 1.00 77.32 ATOM 4547 C2 MAN A 602 −28.973 −6.434 −42.405 1.00 77.44 ATOM 4548 O2 MAN A 602 −30.120 −7.253 −42.347 1.00 77.72 ATOM 4549 C3 MAN A 602 −28.044 −6.835 −43.565 1.00 77.20 ATOM 4550 O3 MAN A 602 −27.940 −8.239 −43.664 1.00 76.96 ATOM 4551 C4 MAN A 602 −28.487 −6.260 −44.909 1.00 77.22 ATOM 4552 O4 MAN A 602 −27.471 −6.474 −45.862 1.00 76.90 ATOM 4553 C5 MAN A 602 −28.766 −4.766 −44.768 1.00 77.47 ATOM 4554 C6 MAN A 602 −29.185 −4.115 −46.081 1.00 77.84 ATOM 4555 O6 MAN A 602 −28.163 −3.228 −46.483 1.00 78.24 ATOM 4556 O5 MAN A 602 −29.768 −4.562 −43.790 1.00 77.46 ATOM 4557 C1 MAN A 603 −18.689 25.235 −53.677 1.00 47.04 ATOM 4558 C2 MAN A 603 −20.074 24.872 −53.114 1.00 51.09 ATOM 4559 O2 MAN A 603 −21.044 25.065 −54.120 1.00 52.42 ATOM 4560 C3 MAN A 603 −20.141 23.420 −52.620 1.00 51.78 ATOM 4561 O3 MAN A 603 −21.465 23.079 −52.262 1.00 53.36 ATOM 4562 C4 MAN A 603 −19.602 22.466 −53.686 1.00 51.72 ATOM 4563 O4 MAN A 603 −19.615 21.142 −53.209 1.00 51.94 ATOM 4564 C5 MAN A 603 −18.179 22.911 −54.021 1.00 51.66 ATOM 4565 C6 MAN A 603 −17.421 21.906 −54.892 1.00 53.80 ATOM 4566 O6 MAN A 603 −17.915 21.885 −56.214 1.00 55.49 ATOM 4567 O5 MAN A 603 −18.217 24.223 −54.581 1.00 49.62 ATOM 4568 C1 MAN A 605 −4.678 15.117 −57.896 1.00 58.79 ATOM 4569 C2 MAN A 605 −3.360 15.555 −58.538 1.00 58.65 ATOM 4570 O2 MAN A 605 −2.564 14.412 −58.722 1.00 59.38 ATOM 4571 C3 MAN A 605 −3.570 16.269 −59.878 1.00 58.70 ATOM 4572 O3 MAN A 605 −2.523 15.985 −60.778 1.00 59.27 ATOM 4573 C4 MAN A 605 −4.915 15.892 −60.491 1.00 58.73 ATOM 4574 O4 MAN A 605 −5.084 16.538 −61.730 1.00 59.62 ATOM 4575 C5 MAN A 605 −6.054 16.284 −59.547 1.00 58.90 ATOM 4576 C6 MAN A 605 −7.370 15.612 −59.932 1.00 58.75 ATOM 4577 O6 MAN A 605 −7.255 14.219 −59.738 1.00 59.42 ATOM 4578 O5 MAN A 605 −5.730 16.034 −58.173 1.00 58.30 ATOM 4579 C1 MAN A 606 −10.273 28.688 −42.727 1.00 25.90 ATOM 4580 C2 MAN A 606 −9.839 27.944 −41.452 1.00 28.64 ATOM 4581 O2 MAN A 606 −9.245 28.909 −40.620 1.00 28.84 ATOM 4582 C3 MAN A 606 −10.999 27.249 −40.710 1.00 29.65 ATOM 4583 O3 MAN A 606 −10.568 26.763 −39.441 1.00 28.85 ATOM 4584 C4 MAN A 606 −12.203 28.177 −40.551 1.00 30.36 ATOM 4585 O4 MAN A 606 −13.330 27.463 −40.084 1.00 30.29 ATOM 4586 C5 MAN A 606 −12.553 28.769 −41.914 1.00 30.72 ATOM 4587 C6 MAN A 606 −13.730 29.731 −41.778 1.00 33.97 ATOM 4588 O6 MAN A 606 −13.624 30.732 −42.762 1.00 36.82 ATOM 4589 O5 MAN A 606 −11.434 29.464 −42.435 1.00 28.12 ATOM 4590 C1 MAN A 607 −31.396 1.963 −40.521 1.00 50.29 ATOM 4591 C2 MAN A 607 −30.220 1.790 −41.485 1.00 52.65 ATOM 4592 O2 MAN A 607 −30.541 0.785 −42.419 1.00 54.93 ATOM 4593 C3 MAN A 607 −29.845 3.092 −42.208 1.00 52.48 ATOM 4594 O3 MAN A 607 −28.932 2.836 −43.251 1.00 53.01 ATOM 4595 C4 MAN A 607 −31.068 3.818 −42.766 1.00 52.78 ATOM 4596 O4 MAN A 607 −30.672 5.070 −43.297 1.00 52.92 ATOM 4597 C5 MAN A 607 −32.103 3.985 −41.652 1.00 52.23 ATOM 4598 C6 MAN A 607 −33.331 4.749 −42.153 1.00 52.96 ATOM 4599 O6 MAN A 607 −34.520 4.076 −41.791 1.00 52.95 ATOM 4600 O5 MAN A 607 −32.451 2.702 −41.127 1.00 51.79 ATOM 4601 C1 MAN A 608 3.870 15.416 −59.489 1.00 37.21 ATOM 4602 C2 MAN A 608 5.134 15.938 −60.168 1.00 40.45 ATOM 4603 O2 MAN A 608 6.091 14.903 −60.120 1.00 38.47 ATOM 4604 C3 MAN A 608 4.872 16.381 −61.608 1.00 42.66 ATOM 4605 O3 MAN A 608 6.071 16.726 −62.263 1.00 44.20 ATOM 4606 C4 MAN A 608 4.122 15.321 −62.401 1.00 44.80 ATOM 4607 O4 MAN A 608 3.708 15.907 −63.612 1.00 47.73 ATOM 4608 C5 MAN A 608 2.893 14.887 −61.597 1.00 44.80 ATOM 4609 C6 MAN A 608 2.042 13.861 −62.342 1.00 47.55 ATOM 4610 O6 MAN A 608 1.085 14.582 −63.104 1.00 49.87 ATOM 4611 O5 MAN A 608 3.262 14.423 −60.302 1.00 42.18 ATOM 4612 C1 NAG A 611 3.450 −2.354 −8.282 1.00 23.44 ATOM 4613 C2 NAG A 611 3.474 −0.875 −7.878 1.00 24.51 ATOM 4614 N2 NAG A 611 4.425 −0.077 −8.630 1.00 21.95 ATOM 4615 C7 NAG A 611 4.123 0.454 −9.818 1.00 22.94 ATOM 4616 O7 NAG A 611 3.030 0.322 −10.367 1.00 20.93 ATOM 4617 C8 NAG A 611 5.216 1.232 −10.481 1.00 21.54 ATOM 4618 C3 NAG A 611 3.741 −0.713 −6.380 1.00 25.60 ATOM 4619 O3 NAG A 611 3.676 0.655 −6.047 1.00 24.91 ATOM 4620 C4 NAG A 611 2.741 −1.528 −5.554 1.00 25.70 ATOM 4621 O4 NAG A 611 3.196 −1.598 −4.227 1.00 28.27 ATOM 4622 C5 NAG A 611 2.648 −2.952 −6.086 1.00 26.18 ATOM 4623 C6 NAG A 611 1.524 −3.738 −5.397 1.00 26.64 ATOM 4624 O6 NAG A 611 0.278 −3.081 −5.497 1.00 25.38 ATOM 4625 O5 NAG A 611 2.437 −2.975 −7.488 1.00 24.34 ATOM 4626 C1 NAG A 612 2.499 −0.713 −3.326 1.00 32.04 ATOM 4627 C2 NAG A 612 2.710 −1.192 −1.879 1.00 35.81 ATOM 4628 N2 NAG A 612 2.254 −2.556 −1.666 1.00 37.89 ATOM 4629 C7 NAG A 612 3.072 −3.605 −1.753 1.00 39.19 ATOM 4630 O7 NAG A 612 4.277 −3.517 −2.031 1.00 40.58 ATOM 4631 C8 NAG A 612 2.439 −4.947 −1.507 1.00 38.98 ATOM 4632 C3 NAG A 612 2.012 −0.256 −0.899 1.00 37.96 ATOM 4633 O3 NAG A 612 2.352 −0.666 0.403 1.00 41.23 ATOM 4634 C4 NAG A 612 2.491 1.176 −1.129 1.00 37.63 ATOM 4635 O4 NAG A 612 1.789 2.053 −0.278 1.00 40.85 ATOM 4636 C5 NAG A 612 2.294 1.565 −2.604 1.00 35.10 ATOM 4637 C6 NAG A 612 2.785 2.982 −2.903 1.00 31.93 ATOM 4638 O6 NAG A 612 4.188 2.994 −3.008 0.58 32.70 ATOM 4639 O5 NAG A 612 2.974 0.625 −3.425 1.00 31.95 ATOM 4640 O8 BTB A 620 −1.213 18.638 −21.639 1.00 23.78 ATOM 4641 C8 BTB A 620 −1.255 19.440 −22.838 1.00 17.50 ATOM 4642 C7 BTB A 620 −2.257 18.851 −23.831 1.00 15.39 ATOM 4643 N BTB A 620 −1.808 17.505 −24.294 1.00 13.88 ATOM 4644 C5 BTB A 620 −1.274 17.600 −25.684 1.00 12.99 ATOM 4645 C6 BTB A 620 0.017 18.399 −25.786 1.00 14.67 ATOM 4646 O6 BTB A 620 0.949 18.004 −24.768 1.00 16.93 ATOM 4647 C2 BTB A 620 −2.926 16.495 −24.191 1.00 13.33 ATOM 4648 C4 BTB A 620 −4.238 16.972 −24.835 1.00 13.45 ATOM 4649 O4 BTB A 620 −4.167 17.018 −26.265 1.00 14.77 ATOM 4650 C3 BTB A 620 −3.213 16.295 −22.703 1.00 13.18 ATOM 4651 O3 BTB A 620 −1.984 15.920 −22.059 1.00 12.74 ATOM 4652 C1 BTB A 620 −2.501 15.161 −24.845 1.00 13.57 ATOM 4653 O1 BTB A 620 −3.463 14.138 −24.525 1.00 13.07 ATOM 4654 O WAT W 1 −7.741 16.530 −28.587 1.00 12.90 ATOM 4655 O WAT W 2 −1.955 18.721 −7.814 1.00 11.77 ATOM 4656 O WAT W 3 −17.101 16.033 −19.836 1.00 15.26 ATOM 4657 O WAT W 4 −1.389 7.464 −24.070 1.00 15.86 ATOM 4658 O WAT W 5 −8.070 20.758 −43.462 1.00 19.56 ATOM 4659 O WAT W 6 −12.959 28.534 −26.860 1.00 16.12 ATOM 4660 O WAT W 7 −0.502 31.488 −57.004 1.00 33.06 ATOM 4661 O WAT W 8 2.095 5.710 −17.808 1.00 18.68 ATOM 4662 O WAT W 9 −7.601 14.567 −6.827 1.00 14.97 ATOM 4663 O WAT W 10 24.863 23.325 −37.431 1.00 32.31 ATOM 4664 O WAT W 11 −22.569 7.289 −10.357 1.00 17.52 ATOM 4665 O WAT W 12 −18.987 1.758 −22.078 1.00 23.03 ATOM 4666 O WAT W 13 −3.226 16.264 −54.338 1.00 32.98 ATOM 4667 O WAT W 14 6.141 16.546 −42.196 1.00 16.00 ATOM 4668 O WAT W 15 −10.356 21.827 −22.675 1.00 13.52 ATOM 4669 O WAT W 16 −3.130 25.355 −17.925 1.00 14.01 ATOM 4670 O WAT W 17 −11.823 29.479 −29.411 1.00 17.50 ATOM 4671 O WAT W 18 −14.383 15.964 −19.553 1.00 13.02 ATOM 4672 O WAT W 19 −1.180 16.935 −10.101 1.00 18.86 ATOM 4673 O WAT W 20 −31.133 23.501 4.462 1.00 16.66 ATOM 4674 O WAT W 21 −4.819 24.193 −15.023 1.00 14.31 ATOM 4675 O WAT W 22 1.709 22.276 −4.126 1.00 21.96 ATOM 4676 O WAT W 23 −5.339 21.386 −7.463 1.00 15.78 ATOM 4677 O WAT W 24 −17.232 15.476 1.374 1.00 17.64 ATOM 4678 O WAT W 25 −11.449 4.860 −24.929 1.00 17.45 ATOM 4679 O WAT W 26 −17.555 17.679 −39.815 1.00 23.23 ATOM 4680 O WAT W 27 10.075 17.015 −49.295 1.00 24.05 ATOM 4681 O WAT W 28 −16.018 −0.740 −24.205 1.00 18.07 ATOM 4682 O WAT W 29 9.446 24.991 −37.612 1.00 19.20 ATOM 4683 O WAT W 30 −4.165 26.137 −12.642 1.00 18.33 ATOM 4684 O WAT W 31 2.771 22.947 −14.916 1.00 25.80 ATOM 4685 O WAT W 32 −12.297 21.394 −35.680 1.00 14.89 ATOM 4686 O WAT W 33 −24.061 13.570 10.081 1.00 24.96 ATOM 4687 O WAT W 34 10.032 29.725 −56.684 1.00 26.97 ATOM 4688 O WAT W 35 0.231 4.133 −28.595 1.00 17.67 ATOM 4689 O WAT W 36 0.335 2.173 −30.650 1.00 18.32 ATOM 4690 O WAT W 37 −10.199 24.315 −42.717 1.00 22.38 ATOM 4691 O WAT W 38 −14.151 12.872 −8.204 1.00 16.16 ATOM 4692 O WAT W 39 −2.710 9.564 −16.092 1.00 14.10 ATOM 4693 O WAT W 40 5.954 7.990 −32.401 1.00 16.59 ATOM 4694 O WAT W 41 0.294 5.561 −25.249 1.00 17.87 ATOM 4695 O WAT W 42 2.102 15.148 −37.718 1.00 14.64 ATOM 4696 O WAT W 43 −19.351 1.384 −26.295 1.00 20.27 ATOM 4697 O WAT W 44 −19.623 9.533 −17.751 1.00 14.67 ATOM 4698 O WAT W 45 3.117 18.767 −36.336 1.00 12.66 ATOM 4699 O WAT W 46 −15.016 16.950 0.662 1.00 20.14 ATOM 4700 O WAT W 47 −22.261 4.600 −10.993 1.00 16.38 ATOM 4701 O WAT W 48 −12.926 5.474 −22.680 1.00 19.85 ATOM 4702 O WAT W 49 5.564 17.071 −37.018 1.00 16.82 ATOM 4703 O WAT W 50 −19.848 20.552 −2.718 1.00 19.38 ATOM 4704 O WAT W 51 −15.859 17.744 −41.901 1.00 19.69 ATOM 4705 O WAT W 52 −16.430 25.522 −1.123 1.00 19.97 ATOM 4706 O WAT W 53 −15.978 5.366 −12.193 1.00 26.02 ATOM 4707 O WAT W 54 −1.637 9.365 −26.035 1.00 14.42 ATOM 4708 O WAT W 55 −10.759 27.212 −30.898 1.00 17.28 ATOM 4709 O WAT W 56 −11.509 0.756 −13.101 1.00 20.70 ATOM 4710 O WAT W 57 −16.950 15.108 4.727 1.00 23.86 ATOM 4711 O WAT W 58 −25.368 26.009 −7.106 1.00 25.08 ATOM 4712 O WAT W 59 −16.870 22.937 −3.651 1.00 17.56 ATOM 4713 O WAT W 60 −14.388 13.258 −40.897 1.00 27.90 ATOM 4714 O WAT W 61 −1.509 −4.779 −6.723 1.00 31.01 ATOM 4715 O WAT W 62 −1.973 27.723 −11.521 1.00 21.99 ATOM 4716 O WAT W 63 −1.159 −10.623 −29.592 1.00 36.68 ATOM 4717 O WAT W 64 −1.943 16.930 −42.957 1.00 21.57 ATOM 4718 O WAT W 65 −1.507 25.238 −40.032 1.00 31.36 ATOM 4719 O WAT W 66 −4.023 5.499 −31.787 1.00 20.03 ATOM 4720 O WAT W 67 −13.383 13.873 −21.065 1.00 12.01 ATOM 4721 O WAT W 68 −15.098 10.726 −24.467 1.00 24.34 ATOM 4722 O WAT W 69 −2.122 13.975 −13.435 1.00 12.51 ATOM 4723 O WAT W 70 −4.807 19.360 −43.270 1.00 20.93 ATOM 4724 O WAT W 71 −26.028 26.143 −33.768 1.00 28.78 ATOM 4725 O WAT W 72 −19.347 21.638 3.482 1.00 19.92 ATOM 4726 O WAT W 73 −27.299 24.219 −6.045 1.00 20.97 ATOM 4727 O WAT W 74 −21.114 −0.343 −28.050 1.00 22.38 ATOM 4728 O WAT W 75 −5.818 34.483 −11.645 1.00 20.61 ATOM 4729 O WAT W 76 6.048 1.098 −23.393 1.00 16.77 ATOM 4730 O WAT W 77 −3.946 23.711 −39.552 1.00 25.07 ATOM 4731 O WAT W 78 −18.572 21.631 −41.884 1.00 25.98 ATOM 4732 O WAT W 79 5.239 26.273 −31.646 1.00 27.95 ATOM 4733 O WAT W 80 0.054 15.597 −45.905 1.00 28.45 ATOM 4734 O WAT W 81 −3.130 21.534 −5.652 1.00 20.95 ATOM 4735 O WAT W 82 −12.534 4.331 −20.095 1.00 17.49 ATOM 4736 O WAT W 83 0.785 16.541 −14.558 1.00 14.65 ATOM 4737 O WAT W 84 −5.197 12.827 −31.553 1.00 14.10 ATOM 4738 O WAT W 85 −16.738 26.994 −34.463 1.00 23.74 ATOM 4739 O WAT W 86 3.596 22.076 −36.828 1.00 22.68 ATOM 4740 O WAT W 87 5.170 14.460 −40.572 1.00 26.56 ATOM 4741 O WAT W 88 −12.322 21.050 0.328 1.00 30.36 ATOM 4742 O WAT W 89 7.426 14.327 −48.857 1.00 26.44 ATOM 4743 O WAT W 90 −13.702 19.025 1.863 1.00 28.28 ATOM 4744 O WAT W 91 8.794 2.010 −23.444 1.00 34.69 ATOM 4745 O WAT W 92 −6.185 5.529 −30.210 1.00 17.03 ATOM 4746 O WAT W 93 −18.081 20.709 −4.839 1.00 17.61 ATOM 4747 O WAT W 94 −15.469 13.082 −22.717 1.00 15.55 ATOM 4748 O WAT W 95 13.101 16.811 −29.771 1.00 29.16 ATOM 4749 O WAT W 96 −25.944 7.031 −2.628 1.00 27.42 ATOM 4750 O WAT W 97 −4.552 34.207 −7.388 1.00 22.19 ATOM 4751 O WAT W 98 −2.231 −9.858 −32.291 1.00 26.28 ATOM 4752 O WAT W 99 5.314 10.271 −28.762 1.00 29.39 ATOM 4753 O WAT W 100 −15.379 27.478 −46.620 1.00 37.77 ATOM 4754 O WAT W 101 26.815 24.874 −36.295 1.00 31.11 ATOM 4755 O WAT W 102 −18.489 −0.112 −24.256 1.00 23.63 ATOM 4756 O WAT W 103 −23.763 26.890 −9.454 1.00 20.50 ATOM 4757 O WAT W 104 −10.933 23.904 −50.315 1.00 25.63 ATOM 4758 O WAT W 105 5.864 12.071 −41.668 1.00 29.27 ATOM 4759 O WAT W 106 2.526 9.409 −13.116 1.00 20.75 ATOM 4760 O WAT W 107 −11.557 −6.653 −10.981 1.00 30.68 ATOM 4761 O WAT W 108 −14.882 7.238 −22.254 1.00 24.81 ATOM 4762 O WAT W 109 −5.331 −13.390 −25.293 1.00 35.63 ATOM 4763 O WAT W 110 −8.068 24.248 −40.534 1.00 39.14 ATOM 4764 O WAT W 111 −0.779 14.419 −43.060 1.00 24.01 ATOM 4765 O WAT W 112 −22.279 12.054 −26.750 1.00 32.13 ATOM 4766 O WAT W 113 −26.829 1.352 −33.787 1.00 26.97 ATOM 4767 O WAT W 114 −14.120 14.116 3.214 1.00 36.89 ATOM 4768 O WAT W 115 0.582 −9.914 −21.103 1.00 23.30 ATOM 4769 O WAT W 116 −24.305 22.723 6.995 1.00 21.67 ATOM 4770 O WAT W 117 −28.275 12.468 −15.419 1.00 21.87 ATOM 4771 O WAT W 118 3.699 27.669 −20.781 1.00 34.08 ATOM 4772 O WAT W 119 −30.428 26.452 3.757 1.00 24.51 ATOM 4773 O WAT W 120 19.168 26.858 −59.022 1.00 33.45 ATOM 4774 O WAT W 121 −8.803 21.729 −1.693 1.00 18.30 ATOM 4775 O WAT W 122 2.863 1.621 −31.755 1.00 19.96 ATOM 4776 O WAT W 123 −2.357 28.930 −56.725 1.00 35.51 ATOM 4777 O WAT W 124 −16.780 5.504 −21.523 1.00 31.34 ATOM 4778 O WAT W 125 6.216 18.141 −30.592 1.00 20.87 ATOM 4779 O WAT W 126 11.789 32.722 −38.773 1.00 40.41 ATOM 4780 O WAT W 127 −5.001 7.195 −45.656 1.00 35.03 ATOM 4781 O WAT W 128 −18.743 1.608 −1.861 1.00 32.49 ATOM 4782 O WAT W 129 −25.089 −1.945 −20.935 1.00 35.17 ATOM 4783 O WAT W 130 −7.097 −2.177 −28.928 1.00 30.93 ATOM 4784 O WAT W 131 −12.591 2.907 −11.929 1.00 18.60 ATOM 4785 O WAT W 132 −17.913 −2.374 −39.429 1.00 29.36 ATOM 4786 O WAT W 133 −6.507 −7.038 −37.710 1.00 37.27 ATOM 4787 O WAT W 134 −0.628 7.596 −18.660 1.00 20.01 ATOM 4788 O WAT W 135 −11.683 28.527 −37.016 1.00 36.45 ATOM 4789 O WAT W 136 −3.169 33.267 −18.049 1.00 24.89 ATOM 4790 O WAT W 137 −16.742 8.938 −23.161 1.00 26.79 ATOM 4791 O WAT W 138 −28.456 17.726 −22.449 1.00 32.61 ATOM 4792 O WAT W 139 25.559 27.237 −45.392 1.00 43.21 ATOM 4793 O WAT W 140 −26.925 5.789 −41.722 1.00 26.97 ATOM 4794 O WAT W 141 −16.907 20.013 −43.283 1.00 29.68 ATOM 4795 O WAT W 142 −20.029 5.119 −1.799 1.00 24.76 ATOM 4796 O WAT W 143 8.706 1.050 −13.115 1.00 32.81 ATOM 4797 O WAT W 144 −4.353 22.506 −1.252 1.00 24.86 ATOM 4798 O WAT W 145 −29.660 14.750 −15.295 1.00 32.62 ATOM 4799 O WAT W 146 2.173 2.240 −12.124 1.00 26.38 ATOM 4800 O WAT W 147 4.174 −4.659 −14.794 1.00 25.20 ATOM 4801 O WAT W 148 −10.913 29.083 −33.130 1.00 27.78 ATOM 4802 O WAT W 149 −21.448 30.157 −10.670 1.00 25.07 ATOM 4803 O WAT W 150 −23.296 18.641 −36.646 1.00 27.11 ATOM 4804 O WAT W 151 −19.426 8.262 −24.240 1.00 25.11 ATOM 4805 O WAT W 152 4.729 −0.512 −31.679 1.00 23.50 ATOM 4806 O WAT W 153 9.247 19.703 −33.306 1.00 23.44 ATOM 4807 O WAT W 154 6.024 15.401 −22.768 1.00 27.11 ATOM 4808 O WAT W 155 −16.077 30.180 −4.530 1.00 23.52 ATOM 4809 O WAT W 156 −0.038 14.751 −8.812 1.00 25.64 ATOM 4810 O WAT W 157 2.962 18.631 −29.190 1.00 18.13 ATOM 4811 O WAT W 158 8.793 12.371 −36.745 1.00 23.77 ATOM 4812 O WAT W 159 −22.406 9.468 −0.415 1.00 21.66 ATOM 4813 O WAT W 160 −10.961 33.685 −7.076 1.00 25.30 ATOM 4814 O WAT W 161 −8.504 27.891 −3.964 1.00 33.88 ATOM 4815 O WAT W 162 6.836 20.663 −32.439 1.00 24.97 ATOM 4816 O WAT W 163 4.292 23.232 −29.206 1.00 32.74 ATOM 4817 O WAT W 164 2.350 3.656 −15.645 1.00 23.29 ATOM 4818 O WAT W 165 −17.377 10.190 −20.605 1.00 25.21 ATOM 4819 O WAT W 166 −23.426 24.714 4.551 1.00 26.12 ATOM 4820 O WAT W 167 0.338 1.730 −14.995 1.00 31.29 ATOM 4821 O WAT W 168 −3.303 17.836 −46.350 1.00 28.34 ATOM 4822 O WAT W 169 1.465 6.514 −14.840 1.00 22.81 ATOM 4823 O WAT W 170 2.409 11.466 −4.481 1.00 29.82 ATOM 4824 O WAT W 171 0.998 19.313 −20.348 1.00 31.57 ATOM 4825 O WAT W 172 7.556 −3.076 −34.213 1.00 31.62 ATOM 4826 O WAT W 173 −25.163 1.132 −18.852 1.00 33.45 ATOM 4827 O WAT W 174 −25.606 17.471 −26.509 1.00 27.89 ATOM 4828 O WAT W 175 5.952 32.621 −65.955 1.00 42.20 ATOM 4829 O WAT W 176 −27.397 26.421 −12.489 1.00 29.06 ATOM 4830 O WAT W 177 −17.506 35.918 −29.284 1.00 36.40 ATOM 4831 O WAT W 178 −18.298 7.055 −19.628 1.00 30.04 ATOM 4832 O WAT W 179 −24.383 14.811 −26.605 1.00 29.51 ATOM 4833 O WAT W 180 −1.204 27.462 −35.328 1.00 29.93 ATOM 4834 O WAT W 181 −14.112 33.822 −23.916 1.00 34.66 ATOM 4835 O WAT W 182 2.887 26.714 −9.619 1.00 34.18 ATOM 4836 O WAT W 183 −16.062 4.698 1.046 1.00 32.44 ATOM 4837 O WAT W 184 −13.340 36.111 −4.359 1.00 39.14 ATOM 4838 O WAT W 185 9.661 34.457 −47.977 1.00 37.66 ATOM 4839 O WAT W 186 −8.465 24.284 −1.237 1.00 33.71 ATOM 4840 O WAT W 187 16.971 15.520 −43.951 1.00 42.49 ATOM 4841 O WAT W 188 −12.038 −14.614 −20.299 1.00 34.37 ATOM 4842 O WAT W 189 −5.887 22.387 −40.784 1.00 33.70 ATOM 4843 O WAT W 190 −3.962 −18.100 −17.720 1.00 31.33 ATOM 4844 O WAT W 191 −30.888 11.643 −15.288 1.00 36.84 ATOM 4845 O WAT W 192 11.576 13.142 −37.752 1.00 32.89 ATOM 4846 O WAT W 193 −7.856 3.348 −41.927 1.00 34.02 ATOM 4847 O WAT W 194 −20.849 7.518 7.652 1.00 32.37 ATOM 4848 O WAT W 195 16.954 13.938 −58.514 1.00 42.65 ATOM 4849 O WAT W 196 −31.884 7.593 −13.893 1.00 37.54 ATOM 4850 O WAT W 197 4.560 −14.190 −17.137 1.00 36.09 ATOM 4851 O WAT W 198 1.116 27.617 −39.051 1.00 37.08 ATOM 4852 O WAT W 199 −1.019 −12.134 −21.800 1.00 36.12 ATOM 4853 O WAT W 200 8.350 0.111 −21.198 1.00 36.56 ATOM 4854 O WAT W 201 −2.691 31.235 −26.910 1.00 32.08 ATOM 4855 O WAT W 202 13.222 30.530 −38.626 1.00 36.46 ATOM 4856 O WAT W 203 −11.218 19.535 −54.549 1.00 35.12 ATOM 4857 O WAT W 204 −5.623 10.865 −46.910 1.00 35.48 ATOM 4858 O WAT W 205 −18.073 1.743 −43.946 1.00 40.62 ATOM 4859 O WAT W 206 −32.195 23.231 2.102 1.00 34.73 ATOM 4860 O WAT W 207 −24.204 8.994 −2.941 1.00 30.29 ATOM 4861 O WAT W 208 −4.771 18.292 −48.610 1.00 31.87 ATOM 4862 O WAT W 209 −17.156 23.843 −40.674 1.00 35.73 ATOM 4863 O WAT W 210 8.319 13.422 −13.297 1.00 37.43 ATOM 4864 O WAT W 211 −25.962 8.559 −33.791 1.00 33.46 ATOM 4865 O WAT W 212 −36.129 8.276 3.147 1.00 40.24 ATOM 4866 O WAT W 213 20.833 21.074 −56.185 1.00 39.11 ATOM 4867 O WAT W 214 −17.726 14.087 8.330 1.00 39.10 ATOM 4868 O WAT W 215 8.944 8.011 −10.493 1.00 41.24 ATOM 4869 O WAT W 216 −16.566 35.858 −11.282 1.00 38.90 ATOM 4870 O WAT W 217 −20.560 11.198 −43.128 1.00 34.83 ATOM 4871 O WAT W 218 3.261 −0.833 −39.177 1.00 32.67 ATOM 4872 O WAT W 219 −22.370 −13.152 −34.412 1.00 59.42 ATOM 4873 O WAT W 220 −24.775 6.925 5.968 1.00 34.28 ATOM 4874 O WAT W 221 −20.357 21.098 −45.702 1.00 36.83 ATOM 4875 O WAT W 222 2.502 28.932 −40.686 1.00 36.85 ATOM 4876 O WAT W 223 −17.630 −5.533 −21.334 1.00 35.08 ATOM 4877 O WAT W 224 −19.358 −1.912 −43.190 1.00 35.83 ATOM 4878 O WAT W 225 −14.632 25.995 −42.094 1.00 41.12 ATOM 4879 O WAT W 226 −28.967 5.606 −22.103 1.00 45.63 ATOM 4880 O WAT W 227 −4.326 9.934 5.097 1.00 44.46 ATOM 4881 O WAT W 228 3.983 22.711 −17.336 1.00 46.21 ATOM 4882 O WAT W 229 −17.238 16.931 6.949 1.00 42.44 ATOM 4883 O WAT W 230 −25.871 18.809 10.364 1.00 36.15 ATOM 4884 O WAT W 231 −23.524 31.294 −19.082 1.00 35.99 ATOM 4885 O WAT W 232 −5.261 −9.321 −38.277 1.00 43.42 ATOM 4886 O WAT W 233 −22.757 28.188 −29.173 1.00 39.56 ATOM 4887 O WAT W 234 −25.699 26.238 −0.299 1.00 40.26 ATOM 4888 O WAT W 235 −21.884 −4.007 −22.294 1.00 38.01 ATOM 4889 O WAT W 236 −6.696 −17.346 −27.753 1.00 39.83 ATOM 4890 O WAT W 237 −18.052 5.515 3.888 1.00 37.82 ATOM 4891 O WAT W 238 −6.073 35.708 −9.057 1.00 36.25 ATOM 4892 O WAT W 239 −8.876 2.984 −44.368 1.00 45.85 ATOM 4893 O WAT W 240 9.232 31.613 −65.496 1.00 45.82 ATOM 4894 O WAT W 241 −28.246 26.806 −0.118 1.00 36.45 ATOM 4895 O WAT W 242 −27.793 14.675 −45.312 1.00 52.10 ATOM 4896 O WAT W 243 7.463 14.079 −55.045 1.00 36.97 ATOM 4897 O WAT W 244 −28.572 4.769 −1.130 1.00 36.20 ATOM 4898 O WAT W 245 8.221 12.936 −50.870 1.00 38.81 ATOM 4899 O WAT W 246 −23.302 −2.082 −27.191 1.00 32.98 ATOM 4900 O WAT W 247 −13.035 8.248 −46.620 1.00 51.73 ATOM 4901 O WAT W 248 −11.869 31.852 −50.157 1.00 56.13 ATOM 4902 O WAT W 249 0.898 13.920 −6.521 1.00 27.38 ATOM 4903 O WAT W 250 20.427 30.852 −45.446 1.00 35.54 ATOM 4904 O WAT W 251 −1.397 12.400 −44.617 1.00 39.33 ATOM 4905 O WAT W 252 −27.354 24.696 −3.162 1.00 35.38 ATOM 4906 O WAT W 253 17.587 20.557 −31.069 1.00 41.51 ATOM 4907 O WAT W 254 −7.936 35.055 −7.354 1.00 39.02 ATOM 4908 O WAT W 255 −22.469 7.215 −2.044 1.00 38.25 ATOM 4909 O WAT W 256 2.038 15.474 −52.963 1.00 50.04 ATOM 4910 O WAT W 257 10.889 10.184 −21.700 1.00 44.84 ATOM 4911 O WAT W 258 −11.714 10.583 4.136 1.00 42.70 ATOM 4912 O WAT W 259 −14.719 6.574 2.959 1.00 43.18 ATOM 4913 O WAT W 260 −16.694 25.390 −37.688 1.00 36.77 ATOM 4914 O WAT W 261 −9.212 13.388 −48.363 1.00 38.05 ATOM 4915 O WAT W 264 −0.611 −1.965 −3.253 1.00 37.95 ATOM 4916 O WAT W 265 −16.380 30.998 −14.262 1.00 32.44 ATOM 4917 O WAT W 266 9.420 16.012 −61.368 1.00 35.22 ATOM 4918 O WAT W 267 −4.976 −15.180 −21.223 1.00 45.50 ATOM 4919 O WAT W 268 −16.631 33.287 −14.201 1.00 34.50 ATOM 4920 O WAT W 269 −16.883 34.052 −32.249 1.00 36.88 ATOM 4921 O WAT W 270 −8.293 −16.006 −14.535 1.00 34.80 ATOM 4922 O WAT W 273 0.240 4.589 −13.868 1.00 32.34 ATOM 4923 O WAT W 275 3.657 14.447 −55.516 1.00 43.54 ATOM 4924 O WAT W 276 −17.602 20.784 −51.471 1.00 38.88 ATOM 4925 O WAT W 277 −10.479 31.683 −30.513 1.00 40.35 ATOM 4926 O WAT W 278 −10.974 4.308 −5.745 1.00 40.30 ATOM 4927 O WAT W 280 −4.336 36.908 −17.666 1.00 34.01 ATOM 4928 O WAT W 281 6.720 33.970 −53.572 1.00 38.81 ATOM 4929 O WAT W 282 −30.457 23.527 −0.621 1.00 34.61 ATOM 4930 O WAT W 283 16.969 17.394 −30.816 1.00 55.74 ATOM 4931 O WAT W 284 −24.391 5.834 −24.909 1.00 37.92 ATOM 4932 O WAT W 285 4.567 9.814 −4.438 1.00 44.83 ATOM 4933 O WAT W 286 −24.370 −7.328 −27.875 1.00 56.18 ATOM 4934 O WAT W 287 −21.605 11.887 9.715 1.00 43.15 ATOM 4935 O WAT W 288 8.603 0.412 −37.887 1.00 40.47 ATOM 4936 O WAT W 290 −20.056 21.495 6.073 1.00 41.68 ATOM 4937 O WAT W 291 −3.221 28.158 −33.448 1.00 44.24 ATOM 4938 O WAT W 292 9.171 9.103 −38.735 1.00 34.30 ATOM 4939 O WAT W 293 2.894 22.763 −25.829 1.00 38.57 ATOM 4940 O WAT W 294 −29.901 19.604 −14.929 1.00 37.66 ATOM 4941 O WAT W 296 −4.579 30.229 −29.110 1.00 40.57 ATOM 4942 O WAT W 297 −23.821 11.441 −33.187 1.00 42.81 ATOM 4943 O WAT W 298 −26.753 −3.087 −31.243 1.00 39.08 ATOM 4944 O WAT W 300 −10.820 35.024 −53.050 1.00 55.39 ATOM 4945 O WAT W 302 −1.992 7.169 −31.692 1.00 39.12 ATOM 4946 O WAT W 303 −15.282 −19.000 −23.770 1.00 34.62 ATOM 4947 O WAT W 304 12.106 10.568 −25.112 1.00 39.04 ATOM 4948 O WAT W 305 2.585 2.766 1.880 1.00 53.88 ATOM 4949 O WAT W 306 3.680 21.122 −19.818 1.00 46.35 ATOM 4950 O WAT W 307 22.759 24.721 −48.099 1.00 40.35 ATOM 4951 O WAT W 309 −17.062 −6.726 −19.202 1.00 41.54 ATOM 4952 O WAT W 311 12.594 1.109 −31.461 1.00 47.85 ATOM 4953 O WAT W 312 23.347 25.060 −50.638 1.00 49.64 ATOM 4954 O WAT W 314 −18.291 4.422 −19.151 1.00 39.17 ATOM 4955 O WAT W 315 −11.815 −7.807 −8.676 1.00 37.74 ATOM 4956 O WAT W 316 −25.147 1.885 −4.649 1.00 44.72 ATOM 4957 O WAT W 317 −36.473 13.592 5.315 1.00 44.38 ATOM 4958 O WAT W 318 −17.587 20.023 −46.231 1.00 48.30 ATOM 4959 O WAT W 319 −16.081 29.024 −54.668 1.00 39.40 ATOM 4960 O WAT W 320 −14.210 32.143 −5.494 1.00 42.73 ATOM 4961 O WAT W 321 −15.274 28.830 −38.916 1.00 46.47 ATOM 4962 O WAT W 322 −32.792 22.221 −3.433 1.00 41.52 ATOM 4963 O WAT W 323 −32.475 16.905 −12.401 1.00 46.29 ATOM 4964 O WAT W 325 15.341 22.212 −60.490 1.00 34.67 ATOM 4965 O WAT W 326 −12.668 8.518 −41.723 1.00 36.26 ATOM 4966 O WAT W 327 4.709 20.490 −10.568 1.00 38.04 ATOM 4967 O WAT W 328 13.937 10.625 −29.312 1.00 38.32 ATOM 4968 O WAT W 329 −21.964 9.615 −24.896 1.00 40.43 ATOM 4969 O WAT W 330 19.325 25.925 −40.199 1.00 51.36 ATOM 4970 O WAT W 331 −19.010 8.073 −45.255 1.00 46.06 ATOM 4971 O WAT W 332 −25.024 −2.892 −29.306 1.00 41.74 ATOM 4972 O WAT W 333 −16.593 −7.067 −23.297 1.00 38.54 ATOM 4973 O WAT W 334 −17.517 24.078 2.157 1.00 45.82 ATOM 4974 O WAT W 335 −19.123 31.941 0.010 1.00 38.91 ATOM 4975 O WAT W 337 10.677 21.901 −62.740 1.00 44.31 ATOM 4976 O WAT W 338 4.510 15.230 −51.810 1.00 42.12 ATOM 4977 O WAT W 339 13.979 14.161 −43.380 1.00 46.42 ATOM 4978 O WAT W 341 5.979 −11.625 −28.739 1.00 43.09 ATOM 4979 O WAT W 342 −19.453 13.347 10.394 1.00 42.44 ATOM 4980 O WAT W 343 7.085 23.050 −30.796 1.00 34.94 ATOM 4981 O WAT W 345 6.471 24.087 −63.943 1.00 45.16 ATOM 4982 O WAT W 347 3.734 22.842 −12.031 1.00 43.85 ATOM 4983 O WAT W 348 −17.739 7.564 5.723 1.00 43.77 ATOM 4984 O WAT W 351 −22.014 31.372 −24.708 1.00 42.69 ATOM 4985 O WAT W 352 25.016 25.103 −46.967 1.00 40.51 ATOM 4986 O WAT W 353 7.969 32.464 −67.637 1.00 57.78 ATOM 4987 O WAT W 354 −27.444 5.101 5.861 1.00 48.31 ATOM 4988 O WAT W 356 8.012 11.087 −40.867 1.00 47.51 ATOM 4989 O WAT W 357 4.974 29.116 −17.433 1.00 43.72 ATOM 4990 O WAT W 358 −0.457 9.488 −45.288 1.00 45.63 ATOM 4991 O WAT W 360 −3.090 36.536 −12.138 1.00 46.29 ATOM 4992 O WAT W 361 20.072 19.772 −36.896 1.00 38.73 ATOM 4993 O WAT W 363 −26.217 15.345 −28.735 1.00 49.07 ATOM 4994 O WAT W 365 −25.308 0.100 −48.602 1.00 60.01 ATOM 4995 O WAT W 367 19.369 29.586 −58.438 1.00 48.19 ATOM 4996 O WAT W 369 12.808 11.144 −54.427 1.00 48.48 ATOM 4997 O WAT W 370 9.410 2.674 −16.115 1.00 44.59 ATOM 4998 O WAT W 372 −10.249 38.564 −13.215 1.00 48.60 ATOM 4999 O WAT W 373 −24.151 16.211 10.617 1.00 42.16 ATOM 5000 O WAT W 375 −6.459 31.697 −48.106 1.00 46.03 ATOM 5001 O WAT W 376 −11.605 27.116 −1.562 1.00 44.58 ATOM 5002 O WAT W 377 −4.703 24.150 −62.673 1.00 48.70 ATOM 5003 O WAT W 379 6.889 0.036 −7.530 1.00 45.35 ATOM 5004 O WAT W 381 −13.601 32.742 −32.002 1.00 51.37 ATOM 5005 O WAT W 383 −28.077 5.243 −4.688 1.00 37.46 END 

What is claimed is:
 1. A glucoamylase variant comprising two or more amino acid substitutions corresponding to position 61, 73, 417, 430, 431, 503, 511, 535, 539, or 563 of SEQ ID NO: 2, or an equivalent position in a parent glucoamylase, wherein the glucoamylase variant has at least 80% sequence identity with SEQ ID NO: 1, 2, 3, 5, 6, 7, 8, or
 9. 2. The glucoamylase variant of claim 1, wherein the parent glucoamylase has a catalytic domain that has at least 80% sequence identity with SEQ ID NO: 1, 2, 3, 5, 6, 7, 8, or 9, or a starch binding domain that has at least 80% sequence identity with SEQ ID NO: 1 or
 2. 3. The glucoamylase variant of claim 1, wherein the glucoamylase variant has at least 85% sequence identity with SEQ ID NO: 1, 2, 3, 5, 6, 7, 8, or
 9. 4. The glucoamylase variant of claim 1, wherein the glucoamylase variant has at least 90% sequence identity with SEQ ID NO: 1, 2, 3, 5, 6, 7, 8, or
 9. 5. The glucoamylase variant of claim 1, wherein the glucoamylase variant has at least 95% sequence identity with SEQ ID NO: 1, 2, 3, 5, 6, 7, 8, or
 9. 6. The glucoamylase variant of claim 1, wherein the glucoamylase variant has at least 99.5% sequence identity with SEQ ID NO: 1, 2, 3, 5, 6, 7, 8, or
 9. 7. The glucoamylase variant of claim 1, wherein the parent glucoamylase is SEQ ID NO: 1 or
 2. 8. The glucoamylase variant of claim 1, wherein the glucoamylase variant further comprises one or more amino acid substitutions corresponding to position: 4, 5, 12, 24, 43, 44, 45, 46, 47, 49, 51, 70, 75, 6, 94, 100, 108, 114, 116, 119, 122, 124, 125, 137, 141, 143, 146, 148, 169, 171, 172, 175, 178, 180, 181, 208, 211, 228, 242, 243, 245, 292, 294, 197, 309, 310, 313, 314, 315, 316, 317, 321, 340, 341, 350, 353, 356, 363, 368, 369, 375, 376, 395, 398, 401, 408, 409, 412, 415, 418, 421, 433, 436 or 451 of SEQ ID NO: 2, or an equivalent position in the parent glucoamylase.
 9. The glucoamylase variant of claim 1, wherein the variant further comprises one or more amino acid substitutions corresponding to position: 4, 5, 24, 29, 43, 44, 49, 70, 75, 76, 100, 108, 119, 124, 137, 146, 148, 169, 171, 172, 175, 178, 181, 208, 211, 243, 292, 294, 297, 314, 316, 317, 340, 341, 350, 356, 363, 368, 369, 376, 395, 401, 412, 433, 436 or 451 of SEQ ID NO: 2, or an equivalent position in a parent glucoamylase.
 10. The glucoamylase variant of claim 1, wherein the glucoamylase variant further comprises one or more amino acid substitutions corresponding to position: 5, 24, 43, 44, 49, 70, 75, 76, 94, 119, 141, 146, 148, 172, 175, 178, 180, 181, 208, 211, 243, 294, 309, 314, 353, 369, 375, or 409 of SEQ ID NO: 2, or an equivalent position in a parent glucoamylase.
 11. The glucoamylase variant of claim 1, wherein the glucoamylase variant further comprises one or more amino acid substitutions corresponding to position: 43, 44, or 294 of SEQ ID NO: 2, or an equivalent position in a parent glucoamylase.
 12. The glucoamylase variant of claim 1, wherein the parent glucoamylase is selected from a glucoamylase obtained from a Trichoderma spp., an Aspergillus spp., a Humicola spp., a Penicillium spp., a Talaromycese spp., or a Schizosaccharmyces spp.
 13. The glucoamylase variant of claim 12, wherein the parent glucoamylase is obtained from a Trichoderma spp. or an Aspergillus spp.
 14. The glucoamylase variant of claim 1, wherein the variant comprises two or more amino acid substitutions in a residue corresponding to position: N61I, G73F, L417R/V, T430A/M, A431L/Q, E503A/V, Q511H, A535R, A539R, or N563I/K of SEQ ID NO: 2, or an equivalent position in a parent glucoamylase.
 15. The glucoamylase variant of claim 14, wherein the variant further comprises one or more of the following substitutions: D4L/E/R/S/C/A/Q/W, F5C/M/N/R/S/TN/W, I12L/R, D24E/L/Y/T, F29L/I/D/C/S/V/W, I43F/R/D/Y/S/Q, D44E/H/K/S/N/Y/F/R/C, Y47W,Y49N, Q70R/K/M/P/G/L/F, Q75R/K/A, R76L/M/K/T/P, P94L, D100W/I/Q/M/P/A/N, N119P/T/Y/D/E, N146S/G/C/H/E/D/T/W/L/F/M, Q148V/Y/H/A/C/D/G/M/R/S/T, Y169D/F, Q172C/A/D/R/E/F/H/V/L/M/N/S/T/V, F175H/A/G/R/S/T/C/W/Y, W178A/C/D/E/F/G/H/K/N/R/S/T/V/Y, E180A/C/G/H/I/L/N/P/Q/R/S/T/V/Y/, V181E/C/D/G/H/I/P/T/Y/S/L/K/F/A, Q208L/A/C/E/N/F/H/T, S211C/R/E/A/Y/W/M/H/L/I/R/Q/T, E243S/R/N/M/Y/A/L, R245A/E/M/I/P/V, I292D/H/P/R/T/N/V/F/L, G294C/D/E/T/Q/I/A, K297F/L/P/T/M/D/N/Q/A/Y/H/S/R/W, R309A/C/G/H/I/N/P/Q/S/T/W/Y/L, Y310E/G/L/P/S/W/R/Q, D313Q, V314A/R/N/D/C/E/Q/G/H/I/L/K/M/F/P/S/T/W/Y, Y315F, Y316Q/R, N317T/H, K340D/T, K341F/D/P/V/G/S, T350S/E/A/N, Q356H/D/E, T363L/R/C/H/W, S368W/D/F/L, S369F, N376Q/T/H/S/V, Y395Q/R/S, A398S/I/T, S401C/V, R408S, N409W/T/K, T412A/H/K/G, R433H/Q, I436A/T, or S451M/T/H of SEQ ID NO: 2, or an equivalent position in a parent glucoamylase.
 16. The glucoamylase variant of claim 14, wherein the variant further comprises one or more of the following substitutions: I43F/R/D/Y/S/Q, D44E/H/K/S/N/Y/F/R/C, or G294C/D/E/T/Q/I/A of SEQ ID NO: 2, or an equivalent position in a parent glucoamylase.
 17. The glucoamylase variant of claim 1, wherein the glucoamylase variant exhibits altered thermostability as compared to the parent glucoamylase.
 18. The glucoamylase variant of claim 17, wherein the glucoamylase variant exhibits increased thermostability as compared to the parent glucoamylase.
 19. The glucoamylase variant of claim 1, wherein the glucoamylase variant exhibits altered specific activity as compared to the parent glucoamylase.
 20. The glucoamylase variant of claim 19, wherein the glucoamylase variant exhibits increased specific activity as compared to the parent glucoamylase.
 21. The glucoamylase variant of claim 1, wherein the glucoamylase variant exhibits both increased thermostability and increased specific activity as compared to the parent glucoamylase.
 22. A polynucleotide encoding the variant of claim
 1. 23. A vector comprising the polynucleotide of claim
 22. 24. A host cell comprising the vector of claim
 23. 25. An enzyme composition comprising the glucoamylase variant of claim
 1. 26. The enzyme composition of claim 25 wherein the enzyme composition is used in a starch conversion process.
 27. The enzyme composition of claim 25, wherein the enzyme composition is used in an alcohol fermentation process.
 28. A method of producing a glucoamylase variant in a host cell comprising culturing the host cell of claim 24 under conditions suitable for the expression and production of the glucoamylase variant and producing the glucoamylase variant.
 29. The method according to claim 28 further comprising recovering the glucoamylase variant from the culture.
 30. A glucoamylase variant comprising amino acid substitutions at residues corresponding to positions: I43Q/D44C, D44C/G294C, I43Q/G294C, or I43Q/D44C/G294 of SEQ ID NO: 2, or an equivalent position in a parent glucoamylase, wherein the glucoamylase variant has at least 80% sequence identity with SEQ ID NO: 1, 2, 3, 5, 6, 7, 8, or
 9. 